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Cross-platform Ansible role for deploying NetBox, a DCIM/IPAM tool, in a production environment.

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lae.netbox

Ansible Galaxy Role

Deploys and configures NetBox, an IP address management (IPAM) and data center infrastructure management (DCIM) tool.

This role will deploy NetBox within its own virtualenv either by release tarball or via git using uWSGI as the application server.

Supports CentOS 7,8 / RHEL 9 / Debian 9,10,11,12 / Ubuntu 16, 18, 20 and 22.

Note that this role is slightly opinionated and differs from installation instructions from the NetBox documentation. The main differences are:

  • Uses distro-provided systemd instead of supervisord

  • Uses uWSGI as an application server instead of gunicorn

  • Hardens the NetBox/uWSGI service (see templates/netbox.service.j2)

  • Will hot reload on upgrades and configuration changes

Quickstart

Provided you have Ansible installed and are using defaults:

ansible-galaxy install geerlingguy.postgresql davidwittman.redis lae.netbox
ansible-galaxy collection install community.postgresql
ansible-playbook -i your.server.fqdn, ~/.ansible/roles/lae.netbox/examples/playbook_single_host_deploy.yml -K

This will deploy NetBox and PostgreSQL on your.server.fqdn; once complete it should be accessible on port 80. Modify if needed. Read below for more insight.

You can also use Vagrant, if you prefer, to bring up NetBox at localhost:8080:

ansible-galaxy install geerlingguy.postgresql davidwittman.redis lae.netbox
ansible-galaxy collection install community.postgresql
cd ~/.ansible/roles/lae.netbox/
vagrant up

Support/Contributing

If you would like to contribute to this role, please read DEVELOPING.md for this repository’s workflow and (optional) instructions on setting up a development environment. This role uses the lae.travis-lxc role when testing under Travis CI, which you can find definitions for in the tests/ directory.

For support or if you’d like to contribute to this role but want guidance, feel free to ask in @lae’s Discord server: https://discord.gg/cjqr6Fg

Prerequisites

PostgreSQL

This role does not setup a PostgreSQL server (but will create a database if needed), so you’ll need to setup a PostgreSQL server and create a database user separate from this role. Take a look at the Example Playbook section.

In addition, for Ansible 2.10+, you may need to install the community.postgresql collection. It is recommended to specify this in your playbook’s requirements.yml file. For example:

---
collections:
  - name: community.postgresql
    version: 3.4.0
⚠️
NetBox v2.2.0+ require PostgreSQL 9.4 at the minimum, which may not be available in your distribution’s repos. You may want to use a role for this.

Redis

This role does not setup or manage a Redis instance. You may want to either install redis-server via a task in pre_tasks within your playbook or use a Redis installation role such as DavidWittman.redis.

⚠️
NetBox v2.9.0+ require Redis 4.0 at the minimum. The role suggested above defaults to a 2.8 version, so make sure you specify a newer version in a role variable or deploy Redis 4.0+ another way.

Role Variables

💡
See examples/ for some playbooks you could write for different scenarios.
⚠️
A few role variables are mandatory. Look for the bold required below.
netbox_stable: false
netbox_git: false

It’s required to set one of the above variables to true. netbox_stable tells the role to deploy by extracting tarball releases from GitHub, while netbox_git tells the role to clone a NetBox git repository - they’re mutually exclusive.

netbox_stable_version: 3.7.3
netbox_stable_uri: "https://github.com/netbox-community/netbox/archive/v{{ netbox_stable_version }}.tar.gz"

These can be configured to pin a version (e.g. increment to trigger an upgrade) or deploy using a tarball located somewhere else. Useful for when you need to modify something in a release or are deploying locally behind a firewall.

netbox_git_version: develop
netbox_git_uri: "https://github.com/netbox-community/netbox.git"

netbox_git_version can be any valid ref within a git repository. netbox_git_uri can be used to point to e.g. an on-premise repo or a fork.

netbox_superuser_enabled: true
netbox_superuser_username: admin
#netbox_superuser_password: changeme
netbox_superuser_email: admin@localhost
netbox_superuser_create_token: false

These variables are used to configure a local superuser account. Disable this if you do not want to create one (when using LDAP for example - though having a local superuser may still be beneficial in that case). When enabled, it is required to set the superuser password. This role will create a new superuser if the user does not exist, or will modify an existing user if they’re not a superuser/have a different email or password. (Yes, you can use this to reset your superuser password if you forget it.) netbox_superuser_create_token can be used to generate a random API token for the superuser, if needed.

netbox_database: netbox
netbox_database_user: netbox
#netbox_database_password: changeme
#netbox_database_host: localhost
netbox_database_port: 5432
#netbox_database_socket: /var/run/postgresql

It is required to configure either a socket directory (to communicate over UNIX sockets) or a host/password (to use TCP/IP). See the Example Playbook section for more information on configuring the database.

Note that these are used to configure DATABASE in configuration.py.

netbox_database_conn_age: 300

To configure Netbox to keep database connections open longer than a single requests, set netbox_database_conn_age to your preferred maximum connection age, in seconds. 300 seconds (5 minutes) is typically a good number to start with.

netbox_database_maintenance: postgres

If the postgres database is configured to only allow access to specific tables of the DB for the user configured with Netbox, you can set netbox_database_maintenance to replace the default database used for connection checking to a different table than the default postgres. This is an empty table in every postgres database by default, but some configurations might block access to this table, so a different table (i.e. netbox_prod) can be used here instead.

# Example usage, default is empty dict
netbox_database_options:
  sslmode: require
  isolation_level: 3

If you need to set any other PostgreSQL parameter key words you can do so here. For cases like isolation levels the numerical value must be used instead of the constant: psycopg2.extensions.ISOLATION_LEVEL_SERIALIZABLE vs 3. Only add things here if you really know what you’re doing.

netbox_redis_host: 127.0.0.1
netbox_redis_port: 6379
netbox_redis_password: ''
netbox_redis_database: 0
netbox_redis_default_timeout: 300
netbox_redis_ssl_enabled: false
netbox_redis_insecure_skip_tls_verify: false

netbox_redis_cache_host: "{{ netbox_redis_host }}"
netbox_redis_cache_port: "{{ netbox_redis_port }}"
netbox_redis_cache_database: 1
netbox_redis_cache_password: "{{ netbox_redis_password }}"
netbox_redis_cache_default_timeout: "{{ netbox_redis_default_timeout }}"
netbox_redis_cache_ssl_enabled: "{{ netbox_redis_ssl_enabled }}"
netbox_redis_cache_insecure_skip_tls_verify: "{{ netbox_redis_insecure_skip_tls_verify }}"

This populates the REDIS config dictionary in configuration.py. Use the second set of variables if you wish to split your cache database from your webhooks database.

netbox_redis_sentinels:
  - { host: '192.168.0.1', port: '5000' },
  - { host: '192.168.0.2', port: '5000' }
netbox_redis_sentinel_service: 'netbox'
netbox_redis_password: ''
netbox_redis_database: 0
netbox_redis_default_timeout: 300
netbox_redis_ssl_enabled: false

netbox_redis_cache_sentinels: "{{ netbox_redis_sentinels }}"
netbox_redis_cache_sentinel_service: "{{ netbox_redis_sentinel_service }}"
netbox_redis_cache_database: 1
netbox_redis_cache_password: "{{ netbox_redis_password }}"
netbox_redis_cache_default_timeout: "{{ netbox_redis_default_timeout }}"
netbox_redis_cache_ssl_enabled: "{{ netbox_redis_ssl_enabled }}"

Use this syntax if your redis is installed with sentinet architecture (multiple nodes). Use the second set of variables if you wish to split your cache database from your webhooks database.

netbox_rqworker_processes: 1

Specify how many request queue workers should be started by the systemd service. You can leave this at the default of 1, unless you have a large number of reports, scripts and other background tasks.

netbox_config:
  #SECRET_KEY:
  ALLOWED_HOSTS:
    - localhost
    - 127.0.0.1
  #NAPALM_USERNAME:
  #NAPALM_PASSWORD:
  MEDIA_ROOT: "{{ netbox_shared_path }}/media"
  REPORTS_ROOT: "{{ netbox_shared_path }}/reports"
  SCRIPTS_ROOT: "{{ netbox_shared_path }}/scripts"

This is a dictionary of settings used to template NetBox’s configuration.py. See Mandatory Settings and Optional Settings from the NetBox documentation for more details, as well as examples/netbox_config.yml in this repository.

It is not necessary to define SECRET_KEY here - this role will automatically create one for you at {{ netbox_shared_path }}/generated_secret_key. The SECRET_KEY will then be read from this file on subsequent runs, unless you later do set this in your playbook. Note that you should define the SECRET_KEY if you are deploying multiple NetBox instances behind one load balancer.

If you have enabled NAPALM integration in this role, you will need to configure NAPALM credentials here as well.

MEDIA_ROOT/REPORTS_ROOT/SCRIPTS_ROOT, while not mandatory in the NetBox documentation, is mandatory in this role to prevent losing these files during upgrades (this role does not upgrade NetBox in-place). It should be set to a directory that is permanent and not lost on upgrade (the default, listed above, can be used without issue). This role will attempt to create these directories and change their ownership to whatever netbox_user is set to.

netbox_scripts: []
netbox_reports: []

Scripts and Reports to upload for use within NetBox. These should be lists of dictionaries with a src attribute, specifying the local path to the script or report, and a name attribute, specifying the module name (script/report name). For example:

## Example
netbox_scripts:
  - src: netbox_scripts/migrate_application.py
    name: migrate_application
netbox_reports:
  - src: netbox_reports/devices.py
    name: devices

This will copy netbox_scripts/migrate_application.py from your playbook directory to {{ netbox_config.SCRIPTS_ROOT }}/migrate_application.py and netbox_reports/devices.py to {{ netbox.config.REPORTS_ROOT }}/devices.py.

netbox_pip_packages: []

## Example:
netbox_pip_packages:
  - https://github.com/steffann/netbox-example-plugin.git
  - netbox-topology-views

This is a list of extra packages to install via pip within NetBox' virtualenv. You can specify any valid artifact that pip understands.

If you list any plugins here, be sure to include the appropriate plugin configurations within the netbox_config role variable. Read Plugins for more info.

netbox_user: netbox
netbox_group: netbox
netbox_home: /srv/netbox
netbox_releases_path: "{{ netbox_home }}/releases"
netbox_git_repo_path: "{{ netbox_releases_path }}/git-repo"
netbox_git_deploy_path: "{{ netbox_releases_path }}/git-deploy"
netbox_stable_path: "{{ netbox_releases_path }}/netbox-{{ netbox_stable_version }}"
netbox_current_path: "{{ netbox_home }}/current"
netbox_shared_path: "{{ netbox_home }}/shared"

These are all deployment details that you can modify to change the application user and application storage locations. netbox_releases_path stores all NetBox releases you’ve ever deployed. netbox_git_repo_path is where the Git repository will be cloned to and should remain untouched - whilst netbox_git_deploy_path is where a git archive using the ref netbox_git_version will be extracted to. netbox_stable_path is the extracted folder from a release tarball. netbox_current_path will be symlinked to the selected release and used in service/configuration files as the location NetBox is installed. netbox_shared_path is intended to store configuration files and other "shared" content, like logs.

netbox_socket: "127.0.0.1:8000"
netbox_protocol: http
netbox_processes: "{{ ansible_processor_vcpus }}"

netbox_socket defines what the uWSGI service will bind to and can be set to any valid ListenStream address (systemd socket). Set netbox_protocol to uwsgi if you want uWSGI to speak WSGI (for instance if you’re running nginx as a load balancer). netbox_processes defines how many NetBox workers uWSGI will bring up to serve requests.

netbox_application_log: "file:{{ netbox_shared_path }}/application.log"
netbox_requests_log: "file:{{ netbox_shared_path }}/requests.log"

These define where logs will be stored. You can use external logging facilities instead of local files if you wish, as long as uWSGI supports it. Application log correlates to logger and requests log to req-logger.

netbox_ldap_enabled: false
netbox_ldap_config_template: netbox_ldap_config.py.j2

Toggle netbox_ldap_enabled to true to configure LDAP authentication for NetBox. netbox_ldap_config_template should be the path to your template - by default, Ansible will search your playbook’s templates/ directory for this. You can find an example in examples/. You will also need to set netbox_config.REMOTE_AUTH_BACKEND to netbox.authentication.LDAPBackend.

💡
By default, a local (non-LDAP) superuser will still be created by this role. If this is undesirable, consider toggling netbox_superuser_enabled.
netbox_napalm_enabled: false
netbox_napalm_packages:
  - napalm

Toggle netbox_napalm_enabled to enable NAPALM integration in NetBox. You must define NAPALM_USERNAME and NAPALM_PASSWORD in the netbox_config variable to be able to use NAPALM. Add extra NAPALM python libraries by listing them in netbox_napalm_packages (e.g. napalm-eos).

netbox_metrics_enabled: false

Toggle netbox_metrics_enabled to true to enable application metrics (via django-prometheus). This adds relevant pieces of configuration for proper metrics handling. (more info).

netbox_metrics_dir: netbox_metrics
netbox_metrics_path: "/run/{{ netbox_metrics_dir }}"

The directory name where the metrics files are stored can be set with netbox_metrics_dir. However, netbox_metrics_path must remain the default (seen above) in order to work with systemd and the RuntimeDirectory parameter (which only points to /run).

netbox_keep_uwsgi_updated: false

Toggle netbox_keep_uwsgi_updated to true if you wish to ensure your uwsgi server is the latest release, otherwise uwsgi will not be updated on subsequent runs of your playbook.

netbox_uwsgi_options: {}

Specify extra configuration options to insert into uwsgi.ini here. This is expected to be a dictionary of key/value pairs, e.g. buffer-size: 65535.

netbox_uwsgi_in_venv: false

Toggle netbox_uwsgi_in_venv to true if you want uwsgi to be installed in the same virtual environment as NetBox. Otherwise, it will be installed system-wide into the library path of the python version used to created the virtual environment (normal/legacy behavior).

⚠️
There’s a possibility that this may become the default in a later version of this role (I think after further cross-platform testing). See issue #144 for further details.
netbox_install_epel: true

Toggle netbox_install_epel to false if you do not want this role to install the Fedora EPEL for you. This can be useful for enterprise environments where the system’s repositories are managed/mirrored by the enterprise.

netbox_packages: []
netbox_python_packages: []
netbox_python_binary: /usr/bin/python{{ some version }}
netbox_ldap_packages: []

These variables are dynamically generated based on the target distribution. You can check the defaults for these underneath the vars/ directory. You can use these variables to target an unsupported operating system (although feel free to open a PR to add in support!) or to specify a custom Python interpreter (such as PyPy) to be used for deployment. Although, please note that support by this role may be limited for alternative Python installations.

Example Playbook

The following installs PostgreSQL and creates a user with @geerlingguy’s robust Postgres role, then proceeds to deploy and configure NetBox using a local unix socket to talk to the Postgres server with the default netbox database user.

- hosts: netbox.idolactiviti.es
  become: yes
  roles:
    - geerlingguy.postgresql
    - davidwittman.redis
    - lae.netbox
  vars:
    netbox_stable: true
    netbox_database_socket: "{{ postgresql_unix_socket_directories[0] }}"
    netbox_superuser_password: netbox
    netbox_socket: "0.0.0.0:80"
    netbox_config:
      ALLOWED_HOSTS:
        - netbox.idolactiviti.es
      MEDIA_ROOT: "{{ netbox_shared_path }}/media"
      REPORTS_ROOT: "{{ netbox_shared_path }}/reports"
      SCRIPTS_ROOT: "{{ netbox_shared_path }}/scripts"
    postgresql_users:
      - name: "{{ netbox_database_user }}"
        role_attr_flags: CREATEDB,NOSUPERUSER
    redis_bind: 127.0.0.1
    redis_version: 6.0.9
    redis_checksum: sha256:dc2bdcf81c620e9f09cfd12e85d3bc631c897b2db7a55218fd8a65eaa37f86dd

Note the CREATEDB attribute.

Assuming you have a PG server already running with the user netbox_prod_user created, it owns a database called netbox_prod, and it allows the host you’re installing NetBox on to authenticate with it over TCP:

- hosts: netbox.idolactiviti.es
  become: yes
  roles:
    - davidwittman.redis
    - lae.netbox
  vars:
    netbox_stable: true
    netbox_superuser_password: netbox
    netbox_socket: "0.0.0.0:80"
    netbox_config:
      ALLOWED_HOSTS:
        - "{{ inventory_hostname }}"
      MEDIA_ROOT: "{{ netbox_shared_path }}/media"
      REPORTS_ROOT: "{{ netbox_shared_path }}/reports"
      SCRIPTS_ROOT: "{{ netbox_shared_path }}/scripts"
    netbox_database_host: pg-netbox.idolactiviti.es
    netbox_database_port: 15432
    netbox_database: netbox_prod
    netbox_database_user: netbox_prod_user
    netbox_database_password: "very_secure_password_for_prod"
    netbox_database_maintenance: netbox_prod
    redis_bind: 127.0.0.1
    redis_version: 6.0.9
    redis_checksum: sha256:dc2bdcf81c620e9f09cfd12e85d3bc631c897b2db7a55218fd8a65eaa37f86dd

See the examples/ directory for more.

Troubleshooting

uWSGI resetting TCP connections

When netbox_protocol is set to http, uWSGI might exhibit strange behaviour and reset TCP connections seemingly at random. This can manifest in a "connection reset by peer" error, for example when working with the API using pynetbox. If you are affected by this, try switching netbox_protocol to uwsgi and using a loadbalancer, or adjusting your netbox_uwsgi_options as follows. See this GitHub issue for a related discussion

netbox_uwsgi_options:
  http-keepalive: "true"
  http-auto-chunked: "true"
  add-header: "Connection: Close"