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NeoAnd:main NeoAnd:20923-dcim-templates NeoAnd:feature NeoAnd:20044-elevation-stuck-lightmode NeoAnd:feature-ip-prefix-link NeoAnd:v4.5-beta1-release NeoAnd:20068-import-moduletype-attrs NeoAnd:20766-fix-german-translation-code-literals NeoAnd:20378-del-script NeoAnd:7604-filter-modifiers-v3 NeoAnd:circuit-swap NeoAnd:12318-case-insensitive-uniqueness NeoAnd:20637-improve-device-q-filter NeoAnd:20660-script-load NeoAnd:19724-graphql NeoAnd:20614-update-ruff NeoAnd:14884-script NeoAnd:02496-max-page NeoAnd:19720-macaddress-interface-generic-relation NeoAnd:19408-circuit-terminations-export-templates NeoAnd:20203-openapi-check NeoAnd:fix-19669-api-image-download NeoAnd:7604-filter-modifiers NeoAnd:19275-fixes-interface-bulk-edit NeoAnd:fix-17794-get_field_value_return_list NeoAnd:11507-show-aggregate-and-rir-on-api NeoAnd:9583-add_column_specific_search_field_to_tables
NeoAnd:v4.4.9 NeoAnd:v4.5.0-beta1 NeoAnd:v4.4.8 NeoAnd:v4.4.7 NeoAnd:v4.4.6 NeoAnd:v4.4.5 NeoAnd:v4.4.4 NeoAnd:v4.4.3 NeoAnd:v4.4.2 NeoAnd:v4.4.1 NeoAnd:v4.4.0 NeoAnd:v4.3.7 NeoAnd:v4.4.0-beta1 NeoAnd:v4.3.6 NeoAnd:v4.3.5 NeoAnd:v4.3.4 NeoAnd:v4.3.3 NeoAnd:v4.3.2 NeoAnd:v4.3.1 NeoAnd:v4.3.0 NeoAnd:v4.2.9 NeoAnd:v4.3.0-beta2 NeoAnd:v4.2.8 NeoAnd:v4.3.0-beta1 NeoAnd:v4.2.7 NeoAnd:v4.2.6 NeoAnd:v4.2.5 NeoAnd:v4.2.4 NeoAnd:v4.2.3 NeoAnd:v4.2.2 NeoAnd:v4.2.1 NeoAnd:v4.2.0 NeoAnd:v4.1.11 NeoAnd:v4.1.10 NeoAnd:v4.1.9 NeoAnd:v4.1.8 NeoAnd:v4.2-beta1 NeoAnd:v4.1.7 NeoAnd:v4.1.6 NeoAnd:v4.1.5 NeoAnd:v4.1.4 NeoAnd:v4.1.3 NeoAnd:v4.1.2 NeoAnd:v4.1.1 NeoAnd:v4.1.0 NeoAnd:v4.0.11 NeoAnd:v4.0.10 NeoAnd:v4.0.9 NeoAnd:v4.1-beta1 NeoAnd:v4.0.8 NeoAnd:v4.0.7 NeoAnd:v4.0.6 NeoAnd:v4.0.5 NeoAnd:v4.0.3 NeoAnd:v4.0.2 NeoAnd:v4.0.1 NeoAnd:v4.0.0 NeoAnd:v3.7.8 NeoAnd:v3.7.7 NeoAnd:v4.0-beta2 NeoAnd:v3.7.6 NeoAnd:v3.7.5 NeoAnd:v4.0-beta1 NeoAnd:v3.7.4 NeoAnd:v3.7.3 NeoAnd:v3.7.2 NeoAnd:v3.7.1 NeoAnd:v3.7.0 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NeoAnd:v2.8.6 NeoAnd:v2.8.5 NeoAnd:v2.8.4 NeoAnd:v2.8.3 NeoAnd:v2.8.2 NeoAnd:v2.8.1 NeoAnd:v2.8.0 NeoAnd:v2.7.12 NeoAnd:v2.7.11 NeoAnd:v2.7.10 NeoAnd:v2.7.9 NeoAnd:v2.7.8 NeoAnd:v2.7.7 NeoAnd:v2.7.6 NeoAnd:v2.7.5 NeoAnd:v2.7.4 NeoAnd:v2.7.3 NeoAnd:v2.7.2 NeoAnd:v2.7.1 NeoAnd:v2.7.0 NeoAnd:v2.6.12 NeoAnd:v2.6.11 NeoAnd:v2.6.10 NeoAnd:v2.6.9 NeoAnd:v2.7-beta1 NeoAnd:Solcon-2020-01-06 NeoAnd:v2.6.8 NeoAnd:v2.6.7 NeoAnd:v2.6.6 NeoAnd:v2.6.5 NeoAnd:v2.6.4 NeoAnd:v2.6.3 NeoAnd:v2.6.2 NeoAnd:v2.6.1 NeoAnd:v2.6.0 NeoAnd:v2.5.13 NeoAnd:v2.5.12 NeoAnd:v2.6-beta1 NeoAnd:v2.5.11 NeoAnd:v2.5.10 NeoAnd:v2.5.9 NeoAnd:v2.5.8 NeoAnd:v2.5.7 NeoAnd:v2.5.6 NeoAnd:v2.5.5 NeoAnd:v2.5.4 NeoAnd:v2.5.3 NeoAnd:v2.5.2 NeoAnd:v2.5.1 NeoAnd:v2.5.0 NeoAnd:v2.4.9 NeoAnd:v2.5-beta2 NeoAnd:v2.4.8 NeoAnd:v2.5-beta1 NeoAnd:v2.4.7 NeoAnd:v2.4.6 NeoAnd:v2.4.5 NeoAnd:v2.4.4 NeoAnd:v2.4.3 NeoAnd:v2.4.2 NeoAnd:v2.4.1 NeoAnd:v2.4.0 NeoAnd:v2.3.7 NeoAnd:v2.4-beta1 NeoAnd:v2.3.6 NeoAnd:v2.3.5 NeoAnd:v2.3.4 NeoAnd:v2.3.3 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NeoAnd:v1.3.1 NeoAnd:v1.3.0 NeoAnd:v1.2.2 NeoAnd:v1.2.1 NeoAnd:v1.2.0 NeoAnd:v1.1.0 NeoAnd:v1.0.7-r1 NeoAnd:v1.0.7 NeoAnd:v1.0.6 NeoAnd:v1.0.5 NeoAnd:v1.0.4 NeoAnd:v1.0.3-r1 NeoAnd:v1.0.3 NeoAnd:1.0.0
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compare: NeoAnd:v2.3-beta2
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NeoAnd:main NeoAnd:20923-dcim-templates NeoAnd:feature NeoAnd:20044-elevation-stuck-lightmode NeoAnd:feature-ip-prefix-link NeoAnd:v4.5-beta1-release NeoAnd:20068-import-moduletype-attrs NeoAnd:20766-fix-german-translation-code-literals NeoAnd:20378-del-script NeoAnd:7604-filter-modifiers-v3 NeoAnd:circuit-swap NeoAnd:12318-case-insensitive-uniqueness NeoAnd:20637-improve-device-q-filter NeoAnd:20660-script-load NeoAnd:19724-graphql NeoAnd:20614-update-ruff NeoAnd:14884-script NeoAnd:02496-max-page NeoAnd:19720-macaddress-interface-generic-relation NeoAnd:19408-circuit-terminations-export-templates NeoAnd:20203-openapi-check NeoAnd:fix-19669-api-image-download NeoAnd:7604-filter-modifiers NeoAnd:19275-fixes-interface-bulk-edit NeoAnd:fix-17794-get_field_value_return_list NeoAnd:11507-show-aggregate-and-rir-on-api NeoAnd:9583-add_column_specific_search_field_to_tables
NeoAnd:v4.4.9 NeoAnd:v4.5.0-beta1 NeoAnd:v4.4.8 NeoAnd:v4.4.7 NeoAnd:v4.4.6 NeoAnd:v4.4.5 NeoAnd:v4.4.4 NeoAnd:v4.4.3 NeoAnd:v4.4.2 NeoAnd:v4.4.1 NeoAnd:v4.4.0 NeoAnd:v4.3.7 NeoAnd:v4.4.0-beta1 NeoAnd:v4.3.6 NeoAnd:v4.3.5 NeoAnd:v4.3.4 NeoAnd:v4.3.3 NeoAnd:v4.3.2 NeoAnd:v4.3.1 NeoAnd:v4.3.0 NeoAnd:v4.2.9 NeoAnd:v4.3.0-beta2 NeoAnd:v4.2.8 NeoAnd:v4.3.0-beta1 NeoAnd:v4.2.7 NeoAnd:v4.2.6 NeoAnd:v4.2.5 NeoAnd:v4.2.4 NeoAnd:v4.2.3 NeoAnd:v4.2.2 NeoAnd:v4.2.1 NeoAnd:v4.2.0 NeoAnd:v4.1.11 NeoAnd:v4.1.10 NeoAnd:v4.1.9 NeoAnd:v4.1.8 NeoAnd:v4.2-beta1 NeoAnd:v4.1.7 NeoAnd:v4.1.6 NeoAnd:v4.1.5 NeoAnd:v4.1.4 NeoAnd:v4.1.3 NeoAnd:v4.1.2 NeoAnd:v4.1.1 NeoAnd:v4.1.0 NeoAnd:v4.0.11 NeoAnd:v4.0.10 NeoAnd:v4.0.9 NeoAnd:v4.1-beta1 NeoAnd:v4.0.8 NeoAnd:v4.0.7 NeoAnd:v4.0.6 NeoAnd:v4.0.5 NeoAnd:v4.0.3 NeoAnd:v4.0.2 NeoAnd:v4.0.1 NeoAnd:v4.0.0 NeoAnd:v3.7.8 NeoAnd:v3.7.7 NeoAnd:v4.0-beta2 NeoAnd:v3.7.6 NeoAnd:v3.7.5 NeoAnd:v4.0-beta1 NeoAnd:v3.7.4 NeoAnd:v3.7.3 NeoAnd:v3.7.2 NeoAnd:v3.7.1 NeoAnd:v3.7.0 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NeoAnd:v2.3.2 NeoAnd:v2.3.1 NeoAnd:v2.3.0 NeoAnd:v2.2.10 NeoAnd:v2.3-beta2 NeoAnd:v2.2.9 NeoAnd:v2.3-beta1 NeoAnd:v2.2.8 NeoAnd:v2.2.7 NeoAnd:v2.2.6 NeoAnd:v2.2.5 NeoAnd:v2.2.4 NeoAnd:v2.2.3 NeoAnd:v2.2.2 NeoAnd:v2.2.1 NeoAnd:v2.2.0 NeoAnd:v2.1.6 NeoAnd:v2.2-beta2 NeoAnd:v2.1.5 NeoAnd:v2.2-beta1 NeoAnd:v2.1.4 NeoAnd:v2.1.3 NeoAnd:v2.1.2 NeoAnd:v2.1.1 NeoAnd:v2.1.0 NeoAnd:v2.0.10 NeoAnd:v2.1-beta1 NeoAnd:v2.0.9 NeoAnd:v2.0.8 NeoAnd:v2.0.7 NeoAnd:v2.0.6 NeoAnd:v2.0.5 NeoAnd:v2.0.4 NeoAnd:v2.0.3 NeoAnd:v2.0.2 NeoAnd:v2.0.1 NeoAnd:v2.0.0 NeoAnd:v2.0-beta3 NeoAnd:v1.9.6 NeoAnd:v1.9.5 NeoAnd:v2.0-beta2 NeoAnd:v1.9.4-r1 NeoAnd:v1.9.3 NeoAnd:v2.0-beta1 NeoAnd:v1.9.2 NeoAnd:v1.9.1 NeoAnd:v1.9.0-r1 NeoAnd:v1.8.4 NeoAnd:v1.8.3 NeoAnd:v1.8.2 NeoAnd:v1.8.1 NeoAnd:v1.8.0 NeoAnd:v1.7.3 NeoAnd:v1.7.2-r1 NeoAnd:v1.7.1 NeoAnd:v1.7.0 NeoAnd:v1.6.3 NeoAnd:v1.6.2-r1 NeoAnd:v1.6.1-r1 NeoAnd:1.6.1 NeoAnd:v1.6.0 NeoAnd:v1.5.2 NeoAnd:v1.5.1 NeoAnd:v1.5.0 NeoAnd:v1.4.2 NeoAnd:v1.4.1 NeoAnd:v1.4.0 NeoAnd:v1.3.2 NeoAnd:v1.3.1 NeoAnd:v1.3.0 NeoAnd:v1.2.2 NeoAnd:v1.2.1 NeoAnd:v1.2.0 NeoAnd:v1.1.0 NeoAnd:v1.0.7-r1 NeoAnd:v1.0.7 NeoAnd:v1.0.6 NeoAnd:v1.0.5 NeoAnd:v1.0.4 NeoAnd:v1.0.3-r1 NeoAnd:v1.0.3 NeoAnd:1.0.0

1 Commits
v2.6.2 ... v2.3-beta2

Author SHA1 Message Date
Jeremy Stretch
1033c8677a Release v2.3-beta2 2018-02-06 15:12:31 -05:00
667 changed files with 12537 additions and 48125 deletions
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<!--
Before opening a new issue, please search through the existing issues to
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### Issue type
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<!--
Please describe the environment in which you are running NetBox. (Be sure
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### Description

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---
name: 🐛 Bug Report
about: Report a reproducible bug in the current release of NetBox
---
<!--
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### Environment
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Describe in detail the exact steps that someone else can take to reproduce
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-->
### Steps to Reproduce
1.
2.
3.
<!-- What did you expect to happen? -->
### Expected Behavior
<!-- What happened instead? -->
### Observed Behavior

18
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@@ -1,18 +0,0 @@
---
name: 📖 Documentation Change
about: Suggest an addition or modification to the NetBox documentation
---
<!--
Please indicate the nature of the change by placing an X in one of the
boxes below.
-->
### Change Type
[ ] Addition
[ ] Correction
[ ] Deprecation
[ ] Cleanup (formatting, typos, etc.)
<!-- Describe the proposed change(s). -->
### Proposed Changes

54
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@@ -1,54 +0,0 @@
---
name: ✨ Feature Request
about: Propose a new NetBox feature or enhancement
---
<!--
NOTE: This form is only for proposing specific new features or enhancements.
If you have a general idea or question, please post to our mailing list
instead of opening an issue:
https://groups.google.com/forum/#!forum/netbox-discuss
NOTE: Due to an excessive backlog of feature requests, we are not currently
accepting any proposals which significantly extend NetBox's feature scope.
Please describe the environment in which you are running NetBox. Be sure
that you are running an unmodified instance of the latest stable release
before submitting a bug report.
-->
### Environment
* Python version: <!-- Example: 3.5.4 -->
* NetBox version: <!-- Example: 2.3.6 -->
<!--
Describe in detail the new functionality you are proposing. Include any
specific changes to work flows, data models, or the user interface.
-->
### Proposed Functionality
<!--
Convey an example use case for your proposed feature. Write from the
perspective of a NetBox user who would benefit from the proposed
functionality and describe how.
--->
### Use Case
<!--
Note any changes to the database schema necessary to support the new
feature. For example, does the proposal require adding a new model or
field? (Not all new features require database changes.)
--->
### Database Changes
<!--
List any new dependencies on external libraries or services that this new
feature would introduce. For example, does the proposal require the
installation of a new Python package? (Not all new features introduce new
dependencies.)
-->
### External Dependencies

17
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@@ -1,17 +0,0 @@
---
name: 🏡 Housekeeping
about: A change pertaining to the codebase itself
---
<!--
NOTE: This type of issue should be opened only by those reasonably familiar
with NetBox's code base and interested in contributing to its development.
Describe the proposed change(s) in detail.
-->
### Proposed Changes
<!-- Provide justification for the proposed change(s). -->
### Justification

2
.github/PULL_REQUEST_TEMPLATE.md vendored
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@@ -6,8 +6,6 @@
be able to accept.
Please indicate the relevant feature request or bug report below.
IF YOUR PULL REQUEST DOES NOT REFERENCE AN ACCEPTED BUG REPORT OR
FEATURE REQUEST, IT WILL BE MARKED AS INVALID AND CLOSED.
-->
### Fixes:

2
.gitignore vendored
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@@ -10,5 +10,3 @@
fabfile.py
*.swp
gunicorn_config.py
.DS_Store
.vscode

4
.travis.yml
View File

@@ -1,15 +1,15 @@
sudo: required
services:
- postgresql
- redis-server
addons:
postgresql: "9.4"
language: python
python:
- "2.7"
- "3.5"
install:
- pip install -r requirements.txt
- pip install pycodestyle
- pip install pep8
before_script:
- psql --version
- psql -U postgres -c 'SELECT version();'

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18
CONTRIBUTING.md
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@@ -16,11 +16,11 @@ For real-time discussion, you can join the #netbox Slack channel on [NetworkToCo
## Reporting Bugs
* First, ensure that you've installed the [latest stable version](https://github.com/netbox-community/netbox/releases)
* First, ensure that you've installed the [latest stable version](https://github.com/digitalocean/netbox/releases)
of NetBox. If you're running an older version, it's possible that the bug has
already been fixed.
* Next, check the GitHub [issues list](https://github.com/netbox-community/netbox/issues)
* Next, check the GitHub [issues list](https://github.com/digitalocean/netbox/issues)
to see if the bug you've found has already been reported. If you think you may
be experiencing a reported issue that hasn't already been resolved, please
click "add a reaction" in the top right corner of the issue and add a thumbs
@@ -51,7 +51,7 @@ your issue.
## Feature Requests
* First, check the GitHub [issues list](https://github.com/netbox-community/netbox/issues)
* First, check the GitHub [issues list](https://github.com/digitalocean/netbox/issues)
to see if the feature you're requesting is already listed. (Be sure to search
closed issues as well, since some feature requests have been rejected.) If the
feature you'd like to see has already been requested and is open, click "add a
@@ -91,13 +91,11 @@ appropriate labels will be applied for categorization.
## Submitting Pull Requests
* Be sure to open an issue **before** starting work on a pull request, and
discuss your idea with the NetBox maintainers before beginning work. This will
help prevent wasting time on something that might we might not be able to
implement. When suggesting a new feature, also make sure it won't conflict with
any work that's already in progress.
* Any pull request which does _not_ relate to an accepted issue will be closed.
* Be sure to open an issue before starting work on a pull request, and discuss
your idea with the NetBox maintainers before beginning work. This will help
prevent wasting time on something that might we might not be able to implement.
When suggesting a new feature, also make sure it won't conflict with any work
that's already in progress.
* When submitting a pull request, please be sure to work off of the `develop`
branch, rather than `master`. The `develop` branch is used for ongoing

1
NOTICE
View File

@@ -1 +0,0 @@
Copyrighted and licensed under Apache License 2.0 by DigitalOcean, LLC.

26
README.md
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@@ -7,15 +7,17 @@ to address the needs of network and infrastructure engineers.
NetBox runs as a web application atop the [Django](https://www.djangoproject.com/)
Python framework with a [PostgreSQL](http://www.postgresql.org/) database. For a
complete list of requirements, see `requirements.txt`. The code is available [on GitHub](https://github.com/netbox-community/netbox).
complete list of requirements, see `requirements.txt`. The code is available [on GitHub](https://github.com/digitalocean/netbox).
The complete documentation for NetBox can be found at [Read the Docs](http://netbox.readthedocs.io/en/stable/).
Questions? Comments? Please subscribe to [the netbox-discuss mailing list](https://groups.google.com/forum/#!forum/netbox-discuss),
or join us in the #netbox Slack channel on [NetworkToCode](https://networktocode.slack.com/)!
or join us in the #netbox Slack channel on [NetworkToCode](https://slack.networktocode.com/)!
### Build Status
NetBox is built against both Python 2.7 and 3.5. Python 3.5 is recommended.
| | status |
|-------------|------------|
| **master** | [![Build Status](https://travis-ci.org/digitalocean/netbox.svg?branch=master)](https://travis-ci.org/digitalocean/netbox) |
@@ -32,26 +34,10 @@ or join us in the #netbox Slack channel on [NetworkToCode](https://networktocode
# Installation
Please see [the documentation](http://netbox.readthedocs.io/en/stable/) for
instructions on installing NetBox. To upgrade NetBox, please download the [latest release](https://github.com/netbox-community/netbox/releases)
instructions on installing NetBox. To upgrade NetBox, please download the [latest release](https://github.com/digitalocean/netbox/releases)
and run `upgrade.sh`.
## Alternative Installations
* [Docker container](https://github.com/netbox-community/netbox-docker) (via [@cimnine](https://github.com/cimnine))
* [Docker container](https://github.com/ninech/netbox-docker) (via [@cimnine](https://github.com/cimnine))
* [Vagrant deployment](https://github.com/ryanmerolle/netbox-vagrant) (via [@ryanmerolle](https://github.com/ryanmerolle))
* [Ansible deployment](https://github.com/lae/ansible-role-netbox) (via [@lae](https://github.com/lae))
# Related projects
## Supported SDK
- [pynetbox](https://github.com/digitalocean/pynetbox) - A Python API client library for Netbox
## Community SDK
- [netbox-client-ruby](https://github.com/ninech/netbox-client-ruby) - A Ruby client library for Netbox
- [powerbox](https://github.com/BatmanAMA/powerbox) - A PowerShell library for Netbox
## Ansible Inventory
- [netbox-as-ansible-inventory](https://github.com/AAbouZaid/netbox-as-ansible-inventory) - Ansible dynamic inventory script for Netbox

84
base_requirements.txt
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@@ -1,84 +0,0 @@
# The Python web framework on which NetBox is built
# https://github.com/django/django
Django
# Django caching using Redis
# https://github.com/Suor/django-cacheops
django-cacheops
# Django middleware which permits cross-domain API requests
# https://github.com/OttoYiu/django-cors-headers
django-cors-headers
# Runtime UI tool for debugging Django
# https://github.com/jazzband/django-debug-toolbar
django-debug-toolbar
# Library for writing reusable URL query filters
# https://github.com/carltongibson/django-filter
django-filter
# Modified Preorder Tree Traversal (recursive nesting of objects)
# https://github.com/django-mptt/django-mptt
django-mptt
# Django integration for RQ (Reqis queuing)
# https://github.com/rq/django-rq
django-rq
# Prometheus metrics library for Django
# https://github.com/korfuri/django-prometheus
django-prometheus
# Abstraction models for rendering and paginating HTML tables
# https://github.com/jieter/django-tables2
django-tables2
# User-defined tags for objects
# https://github.com/alex/django-taggit
django-taggit
# A Django REST Framework serializer which represents tags
# https://github.com/glemmaPaul/django-taggit-serializer
django-taggit-serializer
# A Django field for representing time zones
# https://github.com/mfogel/django-timezone-field/
django-timezone-field
# A REST API framework for Django projects
# https://github.com/encode/django-rest-framework
djangorestframework
# Swagger/OpenAPI schema generation for REST APIs
# https://github.com/axnsan12/drf-yasg
drf-yasg[validation]
# Python interface to the graphviz graph rendering utility
# https://github.com/xflr6/graphviz
graphviz
# Simple markup language for rendering HTML
# https://github.com/Python-Markdown/markdown
# py-gfm requires Markdown<3.0
Markdown<3.0
# Library for manipulating IP prefixes and addresses
# https://github.com/drkjam/netaddr
netaddr
# Fork of PIL (Python Imaging Library) for image processing
# https://github.com/python-pillow/Pillow
Pillow
# PostgreSQL database adapter for Python
# https://github.com/psycopg/psycopg2
psycopg2-binary
# GitHub-flavored Markdown extensions
# https://github.com/zopieux/py-gfm
py-gfm
# Extensive cryptographic library (fork of pycrypto)
# https://github.com/Legrandin/pycryptodome
pycryptodome

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@@ -1,21 +0,0 @@
# Caching
To improve performance, NetBox supports caching for most object and list views. Caching is implemented using Redis,
and [django-cacheops](https://github.com/Suor/django-cacheops)
Several management commands are avaliable for administrators to manaully invalidate cache entries in extenuating circumstances.
To invalidate a specifc model instance (for example a Device with ID 34):
```
python netbox/manage.py invalidate dcim.Device.34
```
To invalidate all instance of a model:
```
python netbox/manage.py invalidate dcim.Device
```
To flush the entire cache database:
```
python netbox/manage.py invalidate all
```

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@@ -1,9 +0,0 @@
# Change Logging
Every time an object in NetBox is created, updated, or deleted, a serialized copy of that object is saved to the database, along with meta data including the current time and the user associated with the change. These records form a running changelog both for each individual object as well as NetBox as a whole (Organization > Changelog).
A serialized representation is included for each object in JSON format. This is similar to how objects are conveyed within the REST API, but does not include any nested representations. For instance, the `tenant` field of a site will record only the tenant's ID, not a representation of the tenant.
When a request is made, a random request ID is generated and attached to any change records resulting from the request. For example, editing multiple objects in bulk will create a change record for each object, and each of those objects will be assigned the same request ID. This makes it easy to identify all the change records associated with a particular request.
Change records are exposed in the API via the read-only endpoint `/api/extras/object-changes/`. They may also be exported in CSV format.

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@@ -1,5 +0,0 @@
# Contextual Configuration Data
Sometimes it is desirable to associate arbitrary data with a group of devices to aid in their configuration. For example, you might want to associate a set of syslog servers for all devices at a particular site. Context data enables the association of arbitrary data to devices and virtual machines grouped by region, site, role, platform, and/or tenant. Context data is arranged hierarchically, so that data with a higher weight can be entered to override more general lower-weight data. Multiple instances of data are automatically merged by NetBox to present a single dictionary for each object.
Devices and Virtual Machines may also have a local config context defined. This local context will always overwrite the rendered config context objects for the Device/VM. This is useful in situations were the device requires a one-off value different from the rest of the environment.

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@@ -1,26 +0,0 @@
# Custom Fields
Each object in NetBox is represented in the database as a discrete table, and each attribute of an object exists as a column within its table. For example, sites are stored in the `dcim_site` table, which has columns named `name`, `facility`, `physical_address`, and so on. As new attributes are added to objects throughout the development of NetBox, tables are expanded to include new rows.
However, some users might want to associate with objects attributes that are somewhat esoteric in nature, and that would not make sense to include in the core NetBox database schema. For instance, suppose your organization needs to associate each device with a ticket number pointing to the support ticket that was opened to have it installed. This is certainly a legitimate use for NetBox, but it's perhaps not a common enough need to warrant expanding the internal data schema. Instead, you can create a custom field to hold this data.
Custom fields must be created through the admin UI under Extras > Custom Fields. To create a new custom field, select the object(s) to which you want it to apply, and the type of field it will be. NetBox supports six field types:
* Free-form text (up to 255 characters)
* Integer
* Boolean (true/false)
* Date
* URL
* Selection
Assign the field a name. This should be a simple database-friendly string, e.g. `tps_report`. You may optionally assign the field a human-friendly label (e.g. "TPS report") as well; the label will be displayed on forms. If a description is provided, it will appear beneath the field in a form.
Marking the field as required will require the user to provide a value for the field when creating a new object or when saving an existing object. A default value for the field may also be provided. Use "true" or "false" for boolean fields. (The default value has no effect for selection fields.)
When creating a selection field, you should create at least two choices. These choices will be arranged first by weight, with lower weights appearing higher in the list, and then alphabetically.
## Using Custom Fields
When a single object is edited, the form will include any custom fields which have been defined for the object type. These fields are included in the "Custom Fields" panel. On the backend, each custom field value is saved separately from the core object as an independent database call, so it's best to avoid adding too many custom fields per object.
When editing multiple objects, custom field values are saved in bulk. There is no significant difference in overhead when saving a custom field value for 100 objects versus one object. However, the bulk operation must be performed separately for each custom field.

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@@ -1,52 +0,0 @@
# Export Templates
NetBox allows users to define custom templates that can be used when exporting objects. To create an export template, navigate to Extras > Export Templates under the admin interface.
Each export template is associated with a certain type of object. For instance, if you create an export template for VLANs, your custom template will appear under the "Export" button on the VLANs list.
Export templates are written in [Django's template language](https://docs.djangoproject.com/en/1.9/ref/templates/language/), which is very similar to Jinja2. The list of objects returned from the database is stored in the `queryset` variable, which you'll typically want to iterate through using a `for` loop. Object properties can be access by name. For example:
```
{% for rack in queryset %}
Rack: {{ rack.name }}
Site: {{ rack.site.name }}
Height: {{ rack.u_height }}U
{% endfor %}
```
To access custom fields of an object within a template, use the `cf` attribute. For example, `{{ obj.cf.color }}` will return the value (if any) for a custom field named `color` on `obj`.
A MIME type and file extension can optionally be defined for each export template. The default MIME type is `text/plain`.
## Example
Here's an example device export template that will generate a simple Nagios configuration from a list of devices.
```
{% for device in queryset %}{% if device.status and device.primary_ip %}define host{
use generic-switch
host_name {{ device.name }}
address {{ device.primary_ip.address.ip }}
}
{% endif %}{% endfor %}
```
The generated output will look something like this:
```
define host{
use generic-switch
host_name switch1
address 192.0.2.1
}
define host{
use generic-switch
host_name switch2
address 192.0.2.2
}
define host{
use generic-switch
host_name switch3
address 192.0.2.3
}
```

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@@ -1,25 +0,0 @@
# Graphs
NetBox does not have the ability to generate graphs natively, but this feature allows you to embed contextual graphs from an external resources (such as a monitoring system) inside the site, provider, and interface views. Each embedded graph must be defined with the following parameters:
* **Type:** Site, provider, or interface. This determines in which view the graph will be displayed.
* **Weight:** Determines the order in which graphs are displayed (lower weights are displayed first). Graphs with equal weights will be ordered alphabetically by name.
* **Name:** The title to display above the graph.
* **Source URL:** The source of the image to be embedded. The associated object will be available as a template variable named `obj`.
* **Link URL (optional):** A URL to which the graph will be linked. The associated object will be available as a template variable named `obj`.
## Examples
You only need to define one graph object for each graph you want to include when viewing an object. For example, if you want to include a graph of traffic through an interface over the past five minutes, your graph source might looks like this:
```
https://my.nms.local/graphs/?node={{ obj.device.name }}&interface={{ obj.name }}&duration=5m
```
You can define several graphs to provide multiple contexts when viewing an object. For example:
```
https://my.nms.local/graphs/?type=throughput&node={{ obj.device.name }}&interface={{ obj.name }}&duration=60m
https://my.nms.local/graphs/?type=throughput&node={{ obj.device.name }}&interface={{ obj.name }}&duration=24h
https://my.nms.local/graphs/?type=errors&node={{ obj.device.name }}&interface={{ obj.name }}&duration=60m
```

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@@ -1,34 +0,0 @@
# Prometheus Metrics
NetBox supports optionally exposing native Prometheus metrics from the application. [Prometheus](https://prometheus.io/) is a popular time series metric platform used for monitoring.
NetBox exposes metrics at the `/metrics` HTTP endpoint, e.g. `https://netbox.local/metrics`. Metric exposition can be toggled with the `METRICS_ENABLED` configuration setting. Metrics are not exposed by default.
## Metric Types
NetBox makes use of the [django-prometheus](https://github.com/korfuri/django-prometheus) library to export a number of different types of metrics, including:
- Per model insert, update, and delete counters
- Per view request counters
- Per view request latency histograms
- Request body size histograms
- Response body size histograms
- Response code counters
- Database connection, execution, and error counters
- Cache hit, miss, and invalidation counters
- Django middleware latency histograms
- Other Django related metadata metrics
For the exhaustive list of exposed metrics, visit the `/metrics` endpoint on your NetBox instance.
## Multi Processing Notes
When deploying NetBox in a multiprocess mannor--such as using Gunicorn as recomented in the installation docs--the Prometheus client library requires the use of a shared directory
to collect metrics from all the worker processes. This can be any arbitrary directory to which the processes have read/write access. This directory is then made available by use of the
`prometheus_multiproc_dir` environment variable.
This can be setup by first creating a shared directory and then adding this line (with the appropriate directory) to the `[program:netbox]` section of the supervisor config file.
```
environment=prometheus_multiproc_dir=/tmp/prometheus_metrics
```

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@@ -1,24 +0,0 @@
# Tags
Tags are free-form text labels which can be applied to a variety of objects within NetBox. Tags are created on-demand as they are assigned to objects. Use commas to separate tags when adding multiple tags to an object (for example: `Inventoried, Monitored`). Use double quotes around a multi-word tag when adding only one tag, e.g. `"Core Switch"`.
Each tag has a label and a URL-friendly slug. For example, the slug for a tag named "Dunder Mifflin, Inc." would be `dunder-mifflin-inc`. The slug is generated automatically and makes tags easier to work with as URL parameters.
Objects can be filtered by the tags they have applied. For example, the following API request will retrieve all devices tagged as "monitored":
```
GET /api/dcim/devices/?tag=monitored
```
Tags are included in the API representation of an object as a list of plain strings:
```
{
...
"tags": [
"Core Switch",
"Monitored"
],
...
}
```

17
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@@ -1,17 +0,0 @@
# Topology Maps
NetBox can generate simple topology maps from the physical network connections recorded in its database. First, you'll need to create a topology map definition under the admin UI at Extras > Topology Maps.
Each topology map is associated with a site. A site can have multiple topology maps, which might each illustrate a different aspect of its infrastructure (for example, production versus backend infrastructure).
To define the scope of a topology map, decide which devices you want to include. The map will only include interface connections with both points terminated on an included device. Specify the devices to include in the **device patterns** field by entering a list of [regular expressions](https://en.wikipedia.org/wiki/Regular_expression) matching device names. For example, if you wanted to include "mgmt-switch1" through "mgmt-switch99", you might use the regex `mgmt-switch\d+`.
Each line of the **device patterns** field represents a hierarchical layer within the topology map. For example, you might map a traditional network with core, distribution, and access tiers like this:
```
core-switch-[abcd]
dist-switch\d
access-switch\d+;oob-switch\d+
```
Note that you can combine multiple regexes onto one line using semicolons. The order in which regexes are listed on a line is significant: devices matching the first regex will be rendered first, and subsequent groups will be rendered to the right of those.

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@@ -1,57 +0,0 @@
# Webhooks
A webhook defines an HTTP request that is sent to an external application when certain types of objects are created, updated, and/or deleted in NetBox. When a webhook is triggered, a POST request is sent to its configured URL. This request will include a full representation of the object being modified for consumption by the receiver. Webhooks are configured via the admin UI under Extras > Webhooks.
An optional secret key can be configured for each webhook. This will append a `X-Hook-Signature` header to the request, consisting of a HMAC (SHA-512) hex digest of the request body using the secret as the key. This digest can be used by the receiver to authenticate the request's content.
## Requests
The webhook POST request is structured as so (assuming `application/json` as the Content-Type):
```no-highlight
{
"event": "created",
"signal_received_timestamp": 1508769597,
"model": "Site"
"data": {
...
}
}
```
`data` is the serialized representation of the model instance(s) from the event. The same serializers from the NetBox API are used. So an example of the payload for a Site delete event would be:
```no-highlight
{
"event": "deleted",
"signal_received_timestamp": 1508781858.544069,
"model": "Site",
"data": {
"asn": None,
"comments": "",
"contact_email": "",
"contact_name": "",
"contact_phone": "",
"count_circuits": 0,
"count_devices": 0,
"count_prefixes": 0,
"count_racks": 0,
"count_vlans": 0,
"custom_fields": {},
"facility": "",
"id": 54,
"name": "test",
"physical_address": "",
"region": None,
"shipping_address": "",
"slug": "test",
"tenant": None
}
}
```
A request is considered successful if the response status code is any one of a list of "good" statuses defined in the [requests library](https://github.com/requests/requests/blob/205755834d34a8a6ecf2b0b5b2e9c3e6a7f4e4b6/requests/models.py#L688), otherwise the request is marked as having failed. The user may manually retry a failed request.
## Backend Status
Django-rq includes a status page in the admin site which can be used to view the result of processed webhooks and manually retry any failed webhooks. Access it from http://netbox.local/admin/webhook-backend-status/.

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@@ -1,63 +0,0 @@
# Replicating the Database
NetBox uses [PostgreSQL](https://www.postgresql.org/) for its database, so general PostgreSQL best practices will apply to NetBox. You can dump and restore the database using the `pg_dump` and `psql` utilities, respectively.
!!! note
The examples below assume that your database is named `netbox`.
## Export the Database
Use the `pg_dump` utility to export the entire database to a file:
```no-highlight
pg_dump netbox > netbox.sql
```
When replicating a production database for development purposes, you may find it convenient to exclude changelog data, which can easily account for the bulk of a database's size. To do this, exclude the `extras_objectchange` table data from the export. The table will still be included in the output file, but will not be populated with any data.
```no-highlight
pg_dump --exclude-table-data=extras_objectchange netbox > netbox.sql
```
## Load an Exported Database
!!! warning
This will destroy and replace any existing instance of the database.
```no-highlight
psql -c 'drop database netbox'
psql -c 'create database netbox'
psql netbox < netbox.sql
```
Keep in mind that PostgreSQL user accounts and permissions are not included with the dump: You will need to create those manually if you want to fully replicate the original database (see the [installation docs](../installation/1-postgresql.md)). When setting up a development instance of NetBox, it's strongly recommended to use different credentials anyway.
## Export the Database Schema
If you want to export only the database schema, and not the data itself (e.g. for development reference), do the following:
```no-highlight
pg_dump -s netbox > netbox_schema.sql
```
---
# Replicating Media
NetBox stored uploaded files (such as image attachments) in its media directory. To fully replicate an instance of NetBox, you'll need to copy both the database and the media files.
## Archive the Media Directory
Execute the following command from the root of the NetBox installation path (typically `/opt/netbox`):
```no-highlight
tar -czf netbox_media.tar.gz netbox/media/
```
## Restore the Media Directory
To extract the saved archive into a new installation, run the following from the installation root:
```no-highlight
tar -xf netbox_media.tar.gz
```

3
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View File

@@ -4,9 +4,6 @@ The NetBox API employs token-based authentication. For convenience, cookie authe
A token is a unique identifier that identifies a user to the API. Each user in NetBox may have one or more tokens which he or she can use to authenticate to the API. To create a token, navigate to the API tokens page at `/user/api-tokens/`.
!!! note
The creation and modification of API tokens can be restricted per user by an administrator. If you don't see an option to create an API token, ask an administrator to grant you access.
Each token contains a 160-bit key represented as 40 hexadecimal characters. When creating a token, you'll typically leave the key field blank so that a random key will be automatically generated. However, NetBox allows you to specify a key in case you need to restore a previously deleted token to operation.
By default, a token can be used for all operations available via the API. Deselecting the "write enabled" option will restrict API requests made with the token to read operations (e.g. GET) only.

4
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View File

@@ -5,7 +5,7 @@ Supported HTTP methods:
* `GET`: Retrieve an object or list of objects
* `POST`: Create a new object
* `PUT`: Update an existing object, all mandatory fields must be specified
* `PATCH`: Updates an existing object, only specifying the field to be changed
* `PATCH`: Updates an existing object, only specifiying the field to be changed
* `DELETE`: Delete an existing object
To authenticate a request, attach your token in an `Authorization` header:
@@ -144,4 +144,4 @@ $ curl -v -X DELETE -H "Authorization: Token d2f763479f703d80de0ec15254237bc651f
* Closing connection 0
```
The response to a successful `DELETE` request will have code 204 (No Content); the body of the response will be empty.
The response to a successfull `DELETE` request will have code 204 (No Content); the body of the response will be empty.

123
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@@ -104,83 +104,24 @@ The base serializer is used to represent the default view of a model. This inclu
}
```
## Related Objects
Related objects (e.g. `ForeignKey` fields) are represented using a nested serializer. A nested serializer provides a minimal representation of an object, including only its URL and enough information to construct its name. When performing write api actions (`POST`, `PUT`, and `PATCH`), any `ForeignKey` relationships do not use the nested serializer, instead you will pass just the integer ID of the related model.
Related objects (e.g. `ForeignKey` fields) are represented using a nested serializer. A nested serializer provides a minimal representation of an object, including only its URL and enough information to display the object to a user. When performing write API actions (`POST`, `PUT`, and `PATCH`), related objects may be specified by either numeric ID (primary key), or by a set of attributes sufficiently unique to return the desired object.
For example, when creating a new device, its rack can be specified by NetBox ID (PK):
When a base serializer includes one or more nested serializers, the hierarchical structure precludes it from being used for write operations. Thus, a flat representation of an object may be provided using a writable serializer. This serializer includes only raw database values and is not typically used for retrieval, except as part of the response to the creation or updating of an object.
```
{
"name": "MyNewDevice",
"rack": 123,
...
}
```
Or by a set of nested attributes used to identify the rack:
```
{
"name": "MyNewDevice",
"rack": {
"site": {
"name": "Equinix DC6"
},
"name": "R204"
},
...
}
```
Note that if the provided parameters do not return exactly one object, a validation error is raised.
## Brief Format
Most API endpoints support an optional "brief" format, which returns only a minimal representation of each object in the response. This is useful when you need only a list of the objects themselves without any related data, such as when populating a drop-down list in a form.
For example, the default (complete) format of an IP address looks like this:
```
GET /api/ipam/prefixes/13980/
{
"id": 13980,
"family": 4,
"prefix": "192.0.2.0/24",
"site": null,
"vrf": null,
"id": 1201,
"site": 7,
"group": 4,
"vid": 102,
"name": "Users-Floor2",
"tenant": null,
"vlan": null,
"status": {
"value": 1,
"label": "Active"
},
"role": null,
"is_pool": false,
"description": "",
"tags": [],
"custom_fields": {},
"created": "2018-12-11",
"last_updated": "2018-12-11T16:27:55.073174-05:00"
"status": 1,
"role": 9,
"description": ""
}
```
The brief format is much more terse, but includes a link to the object's full representation:
```
GET /api/ipam/prefixes/13980/?brief=1
{
"id": 13980,
"url": "https://netbox/api/ipam/prefixes/13980/",
"family": 4,
"prefix": "192.0.2.0/24"
}
```
The brief format is supported for both lists and individual objects.
## Static Choice Fields
Some model fields, such as the `status` field in the above example, utilize static integers corresponding to static choices. The available choices can be retrieved from the read-only `_choices` endpoint within each app. A specific `model:field` tuple may optionally be specified in the URL.
@@ -265,47 +206,3 @@ The maximum number of objects that can be returned is limited by the [`MAX_PAGE_
!!! warning
Disabling the page size limit introduces a potential for very resource-intensive requests, since one API request can effectively retrieve an entire table from the database.
# Filtering
A list of objects retrieved via the API can be filtered by passing one or more query parameters. The same parameters used by the web UI work for the API as well. For example, to return only prefixes with a status of "Active" (`1`):
```
GET /api/ipam/prefixes/?status=1
```
The choices available for fixed choice fields such as `status` are exposed in the API under a special `_choices` endpoint for each NetBox app. For example, the available choices for `Prefix.status` are listed at `/api/ipam/_choices/` under the key `prefix:status`:
```
"prefix:status": [
{
"label": "Container",
"value": 0
},
{
"label": "Active",
"value": 1
},
{
"label": "Reserved",
"value": 2
},
{
"label": "Deprecated",
"value": 3
}
],
```
For most fields, when a filter is passed multiple times, objects matching _any_ of the provided values will be returned. For example, `GET /api/dcim/sites/?name=Foo&name=Bar` will return all sites named "Foo" _or_ "Bar". The exception to this rule is ManyToManyFields which may have multiple values assigned. Tags are the most common example of a ManyToManyField. For example, `GET /api/dcim/sites/?tag=foo&tag=bar` will return only sites tagged with both "foo" _and_ "bar".
## Custom Fields
To filter on a custom field, prepend `cf_` to the field name. For example, the following query will return only sites where a custom field named `foo` is equal to 123:
```
GET /api/dcim/sites/?cf_foo=123
```
!!! note
Full versus partial matching when filtering is configurable per custom field. Filtering can be toggled (or disabled) for a custom field in the admin UI.

16
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@@ -1,16 +0,0 @@
# NetBox Configuration
NetBox's local configuration is stored in `netbox/netbox/configuration.py`. An example configuration is provided at `netbox/netbox/configuration.example.py`. You may copy or rename the example configuration and make changes as appropriate. NetBox will not run without a configuration file.
While NetBox has many configuration settings, only a few of them must be defined at the time of installation.
* [Required settings](required-settings.md)
* [Optional settings](optional-settings.md)
## Changing the Configuration
Configuration settings may be changed at any time. However, the NetBox service must be restarted before the changes will take effect:
```no-highlight
# sudo supervisorctl restart netbox
```

43
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View File

@@ -1,4 +1,4 @@
# Required Configuration Settings
NetBox's local configuration is held in `netbox/netbox/configuration.py`. An example configuration is provided at `netbox/netbox/configuration.example.py`. You may copy or rename the example configuration and make changes as appropriate. NetBox will not run without a configuration file.
## ALLOWED_HOSTS
@@ -43,44 +43,3 @@ This is a secret cryptographic key is used to improve the security of cookies an
Please note that this key is **not** used for hashing user passwords or for the encrypted storage of secret data in NetBox.
`SECRET_KEY` should be at least 50 characters in length and contain a random mix of letters, digits, and symbols. The script located at `netbox/generate_secret_key.py` may be used to generate a suitable key.
---
## REDIS
[Redis](https://redis.io/) is an in-memory data store similar to memcached. While Redis has been an optional component of
NetBox since the introduction of webhooks in version 2.4, it is required starting in 2.6 to support NetBox's caching
functionality (as well as other planned features).
Redis is configured using a configuration setting similar to `DATABASE`:
* HOST - Name or IP address of the Redis server (use `localhost` if running locally)
* PORT - TCP port of the Redis service; leave blank for default port (6379)
* PASSWORD - Redis password (if set)
* DATABASE - Numeric database ID for webhooks
* CACHE_DATABASE - Numeric database ID for caching
* DEFAULT_TIMEOUT - Connection timeout in seconds
* SSL - Use SSL connection to Redis
Example:
```
REDIS = {
'HOST': 'localhost',
'PORT': 6379,
'PASSWORD': '',
'DATABASE': 0,
'CACHE_DATABASE': 1,
'DEFAULT_TIMEOUT': 300,
'SSL': False,
}
```
!!! note:
If you were using these settings in a prior release with webhooks, the `DATABASE` setting remains the same but
an additional `CACHE_DATABASE` setting has been added with a default value of 1 to support the caching backend. The
`DATABASE` setting will be renamed in a future release of NetBox to better relay the meaning of the setting.
!!! warning:
It is highly recommended to keep the webhook and cache databases seperate. Using the same database number for both may result in webhook
processing data being lost in cache flushing events.

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@@ -1,4 +1,4 @@
# Optional Configuration Settings
The following are optional settings which may be declared in `netbox/netbox/configuration.py`.
## ADMINS
@@ -44,22 +44,6 @@ BASE_PATH = 'netbox/'
---
## CACHE_TIMEOUT
Default: 900
The number of seconds to retain cache entries before automatically invalidating them.
---
## CHANGELOG_RETENTION
Default: 90
The number of days to retain logged changes (object creations, updates, and deletions). Set this to `0` to retain changes in the database indefinitely. (Warning: This will greatly increase database size over time.)
---
## CORS_ORIGIN_ALLOW_ALL
Default: False
@@ -72,13 +56,7 @@ If True, cross-origin resource sharing (CORS) requests will be accepted from all
## CORS_ORIGIN_REGEX_WHITELIST
These settings specify a list of origins that are authorized to make cross-site API requests. Use `CORS_ORIGIN_WHITELIST` to define a list of exact hostnames, or `CORS_ORIGIN_REGEX_WHITELIST` to define a set of regular expressions. (These settings have no effect if `CORS_ORIGIN_ALLOW_ALL` is True.) For example:
```
CORS_ORIGIN_WHITELIST = [
'https://example.com',
]
```
These settings specify a list of origins that are authorized to make cross-site API requests. Use `CORS_ORIGIN_WHITELIST` to define a list of exact hostnames, or `CORS_ORIGIN_REGEX_WHITELIST` to define a set of regular expressions. (These settings have no effect if `CORS_ORIGIN_ALLOW_ALL` is True.)
---
@@ -103,30 +81,6 @@ In order to send email, NetBox needs an email server configured. The following i
---
## EXEMPT_VIEW_PERMISSIONS
Default: Empty list
A list of models to exempt from the enforcement of view permissions. Models listed here will be viewable by all users and by anonymous users.
List models in the form `<app>.<model>`. For example:
```
EXEMPT_VIEW_PERMISSIONS = [
'dcim.site',
'dcim.region',
'ipam.prefix',
]
```
To exempt _all_ models from view permission enforcement, set the following. (Note that `EXEMPT_VIEW_PERMISSIONS` must be an iterable.)
```
EXEMPT_VIEW_PERMISSIONS = ['*']
```
---
# ENFORCE_GLOBAL_UNIQUE
Default: False
@@ -171,14 +125,6 @@ Setting this to True will permit only authenticated users to access any part of
---
## LOGIN_TIMEOUT
Default: 1209600 seconds (14 days)
The liftetime (in seconds) of the authentication cookie issued to a NetBox user upon login.
---
## MAINTENANCE_MODE
Default: False
@@ -203,14 +149,6 @@ The file path to the location where media files (such as image attachments) are
---
## METRICS_ENABLED
Default: False
Toggle exposing Prometheus metrics at `/metrics`. See the [Prometheus Metrics](../additional-features/prometheus-metrics/) documentation for more details.
---
## NAPALM_USERNAME
## NAPALM_PASSWORD
@@ -277,14 +215,6 @@ The file path to the location where custom reports will be kept. By default, thi
---
## SESSION_FILE_PATH
Default: None
Session data is used to track authenticated users when they access NetBox. By default, NetBox stores session data in the PostgreSQL database. However, this inhibits authentication to a standby instance of NetBox without write access to the database. Alternatively, a local file path may be specified here and NetBox will store session data as files instead of using the database. Note that the user as which NetBox runs must have read and write permissions to this path.
---
## TIME_ZONE
Default: UTC
@@ -293,14 +223,6 @@ The time zone NetBox will use when dealing with dates and times. It is recommend
---
## WEBHOOKS_ENABLED
Default: False
Enable this option to run the webhook backend. See the docs section on the webhook backend [here](../additional-features/webhooks/) for more information on setup and use.
---
## Date and Time Formatting
You may define custom formatting for date and times. For detailed instructions on writing format strings, please see [the Django documentation](https://docs.djangoproject.com/en/dev/ref/templates/builtins/#date).

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@@ -1,152 +0,0 @@
# Device Types
A device type represents a particular make and model of hardware that exists in the real world. Device types define the physical attributes of a device (rack height and depth) and its individual components (console, power, and network interfaces).
Device types are instantiated as devices installed within racks. For example, you might define a device type to represent a Juniper EX4300-48T network switch with 48 Ethernet interfaces. You can then create multiple devices of this type named "switch1," "switch2," and so on. Each device will inherit the components (such as interfaces) of its device type at the time of creation. (However, changes made to a device type will **not** apply to instances of that device type retroactively.)
Some devices house child devices which share physical resources, like space and power, but which functional independently from one another. A common example of this is blade server chassis. Each device type is designated as one of the following:
* A parent device (which has device bays)
* A child device (which must be installed in a device bay)
* Neither
!!! note
This parent/child relationship is **not** suitable for modeling chassis-based devices, wherein child members share a common control plane.
For that application you should create a single Device for the chassis, and add Interfaces directly to it. Interfaces can be created in bulk using range patterns, e.g. "Gi1/[1-24]".
Add Inventory Items if you want to record the line cards themselves as separate entities. There is no explicit relationship between each interface and its line card, but it may be implied by the naming (e.g. interfaces "Gi1/x" are on line card 1)
## Manufacturers
Each device type must be assigned to a manufacturer. The model number of a device type must be unique to its manufacturer.
## Component Templates
Each device type is assigned a number of component templates which define the physical components within a device. These are:
* Console ports
* Console server ports
* Power ports
* Power outlets
* Network interfaces
* Front ports
* Rear ports
* Device bays (which house child devices)
Whenever a new device is created, its components are automatically created per the templates assigned to its device type. For example, a Juniper EX4300-48T device type might have the following component templates defined:
* One template for a console port ("Console")
* Two templates for power ports ("PSU0" and "PSU1")
* 48 templates for 1GE interfaces ("ge-0/0/0" through "ge-0/0/47")
* Four templates for 10GE interfaces ("xe-0/2/0" through "xe-0/2/3")
Once component templates have been created, every new device that you create as an instance of this type will automatically be assigned each of the components listed above.
!!! note
Assignment of components from templates occurs only at the time of device creation. If you modify the templates of a device type, it will not affect devices which have already been created. However, you always have the option of adding, modifying, or deleting components on existing devices.
---
# Devices
Every piece of hardware which is installed within a rack exists in NetBox as a device. Devices are measured in rack units (U) and can be half depth or full depth. A device may have a height of 0U: These devices do not consume vertical rack space and cannot be assigned to a particular rack unit. A common example of a 0U device is a vertically-mounted PDU.
When assigning a multi-U device to a rack, it is considered to be mounted in the lowest-numbered rack unit which it occupies. For example, a 3U device which occupies U8 through U10 is said to be mounted in U8. This logic applies to racks with both ascending and descending unit numbering.
A device is said to be full depth if its installation on one rack face prevents the installation of any other device on the opposite face within the same rack unit(s). This could be either because the device is physically too deep to allow a device behind it, or because the installation of an opposing device would impede airflow.
## Device Components
There are eight types of device components which comprise all of the interconnection logic with NetBox:
* Console ports
* Console server ports
* Power ports
* Power outlets
* Network interfaces
* Front ports
* Rear ports
* Device bays
### Console
Console ports connect only to console server ports. Console connections can be marked as either *planned* or *connected*.
### Power
Power ports connect only to power outlets. Power connections can be marked as either *planned* or *connected*.
### Interfaces
Interfaces connect to one another in a symmetric manner: If interface A connects to interface B, interface B therefore connects to interface A. Each type of connection can be classified as either *planned* or *connected*.
Each interface is a assigned a type denoting its physical properties. Two special types exist: the "virtual" type can be used to designate logical interfaces (such as SVIs), and the "LAG" type can be used to desinate link aggregation groups to which physical interfaces can be assigned.
Each interface can also be enabled or disabled, and optionally designated as management-only (for out-of-band management). Fields are also provided to store an interface's MTU and MAC address.
VLANs can be assigned to each interface as either tagged or untagged. (An interface may have only one untagged VLAN.)
### Pass-through Ports
Pass-through ports are used to model physical terminations which comprise part of a longer path, such as a cable terminated to a patch panel. Each front port maps to a position on a rear port. A 24-port UTP patch panel, for instance, would have 24 front ports and 24 rear ports. Although this relationship is typically one-to-one, a rear port may have multiple front ports mapped to it. This can be useful for modeling instances where multiple paths share a common cable (for example, six different fiber connections sharing a 12-strand MPO cable).
Pass-through ports can also be used to model "bump in the wire" devices, such as a media convertor or passive tap.
### Device Bays
Device bays represent the ability of a device to house child devices. For example, you might install four blade servers into a 2U chassis. The chassis would appear in the rack elevation as a 2U device with four device bays. Each server within it would be defined as a 0U device installed in one of the device bays. Child devices do not appear within rack elevations or the "Non-Racked Devices" list within the rack view.
Child devices are first-class Devices in their own right: that is, fully independent managed entities which don't share any control plane with the parent. Just like normal devices, child devices have their own platform (OS), role, tags, and interfaces. You cannot create a LAG between interfaces in different child devices.
Therefore, Device bays are **not** suitable for modeling chassis-based switches and routers. These should instead be modeled as a single Device, with the line cards as Inventory Items.
## Device Roles
Devices can be organized by functional roles. These roles are fully customizable. For example, you might create roles for core switches, distribution switches, and access switches.
---
# Platforms
A platform defines the type of software running on a device or virtual machine. This can be helpful when it is necessary to distinguish between, for instance, different feature sets. Note that two devices of the same type may be assigned different platforms: for example, one Juniper MX240 running Junos 14 and another running Junos 15.
The platform model is also used to indicate which [NAPALM](https://napalm-automation.net/) driver NetBox should use when connecting to a remote device. The name of the driver along with optional parameters are stored with the platform.
The assignment of platforms to devices is an optional feature, and may be disregarded if not desired.
---
# Inventory Items
Inventory items represent hardware components installed within a device, such as a power supply or CPU or line card. Currently, these are used merely for inventory tracking, although future development might see their functionality expand. Like device types, each item can optionally be assigned a manufacturer.
---
# Virtual Chassis
A virtual chassis represents a set of devices which share a single control plane: a stack of switches which are managed as a single device, for example. Each device in the virtual chassis is assigned a position and (optionally) a priority. Exactly one device is designated the virtual chassis master: This device will typically be assigned a name, secrets, services, and other attributes related to its management.
It's important to recognize the distinction between a virtual chassis and a chassis-based device. For instance, a virtual chassis is not used to model a chassis switch with removable line cards such as the Juniper EX9208, as its line cards are _not_ physically separate devices capable of operating independently.
---
# Cables
A cable represents a physical connection between two termination points, such as between a console port and a patch panel port, or between two network interfaces. Cables can be traced through pass-through ports to form a complete path between two endpoints. In the example below, three individual cables comprise a path between the two connected endpoints.
```
|<------------------------------------------ Cable Path ------------------------------------------->|
Device A Patch Panel A Patch Panel B Device B
+-----------+ +-------------+ +-------------+ +-----------+
| Interface | --- Cable --- | Front Port | | Front Port | --- Cable --- | Interface |
+-----------+ +-------------+ +-------------+ +-----------+
+-------------+ +-------------+
| Rear Port | --- Cable --- | Rear Port |
+-------------+ +-------------+
```
All connections between device components in NetBox are represented using cables. However, defining the actual cable plant is optional: Components can be be directly connected using cables with no type or other attributes assigned.
Cables are also used to associated ports and interfaces with circuit terminations. To do this, first create the circuit termination, then navigate the desired component and connect a cable between the two.

93
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@@ -1,93 +0,0 @@
# Aggregates
The first step to documenting your IP space is to define its scope by creating aggregates. Aggregates establish the root of your IP address hierarchy by defining the top-level allocations that you're interested in managing. Most organizations will want to track some commonly-used private IP spaces, such as:
* 10.0.0.0/8 (RFC 1918)
* 100.64.0.0/10 (RFC 6598)
* 172.16.0.0/12 (RFC 1918)
* 192.168.0.0/16 (RFC 1918)
* One or more /48s within fd00::/8 (IPv6 unique local addressing)
In addition to one or more of these, you'll want to create an aggregate for each globally-routable space your organization has been allocated. These aggregates should match the allocations recorded in public WHOIS databases.
Each IP prefix will be automatically arranged under its parent aggregate if one exists. Note that it's advised to create aggregates only for IP ranges actually allocated to your organization (or marked for private use): There is no need to define aggregates for provider-assigned space which is only used on Internet circuits, for example.
Aggregates cannot overlap with one another: They can only exist side-by-side. For instance, you cannot define both 10.0.0.0/8 and 10.16.0.0/16 as aggregates, because they overlap. 10.16.0.0/16 in this example would be created as a prefix and automatically grouped under 10.0.0.0/8. Remember, the purpose of aggregates is to establish the root of your IP addressing hierarchy.
## Regional Internet Registries (RIRs)
[Regional Internet registries](https://en.wikipedia.org/wiki/Regional_Internet_registry) are responsible for the allocation of globally-routable address space. The five RIRs are ARIN, RIPE, APNIC, LACNIC, and AFRINIC. However, some address space has been set aside for internal use, such as defined in RFCs 1918 and 6598. NetBox considers these RFCs as a sort of RIR as well; that is, an authority which "owns" certain address space. There also exist lower-tier registries which serve a particular geographic area.
Each aggregate must be assigned to one RIR. You are free to define whichever RIRs you choose (or create your own). The RIR model includes a boolean flag which indicates whether the RIR allocates only private IP space.
For example, suppose your organization has been allocated 104.131.0.0/16 by ARIN. It also makes use of RFC 1918 addressing internally. You would first create RIRs named ARIN and RFC 1918, then create an aggregate for each of these top-level prefixes, assigning it to its respective RIR.
---
# Prefixes
A prefix is an IPv4 or IPv6 network and mask expressed in CIDR notation (e.g. 192.0.2.0/24). A prefix entails only the "network portion" of an IP address: All bits in the address not covered by the mask must be zero. (In other words, a prefix cannot be a specific IP address.)
Prefixes are automatically arranged by their parent aggregates. Additionally, each prefix can be assigned to a particular site and VRF (routing table). All prefixes not assigned to a VRF will appear in the "global" table.
Each prefix can be assigned a status and a role. These terms are often used interchangeably so it's important to recognize the difference between them. The **status** defines a prefix's operational state. Statuses are hard-coded in NetBox and can be one of the following:
* Container - A summary of child prefixes
* Active - Provisioned and in use
* Reserved - Designated for future use
* Deprecated - No longer in use
On the other hand, a prefix's **role** defines its function. Role assignment is optional and roles are fully customizable. For example, you might create roles to differentiate between production and development infrastructure.
A prefix may also be assigned to a VLAN. This association is helpful for identifying which prefixes are included when reviewing a list of VLANs.
The prefix model include a "pool" flag. If enabled, NetBox will treat this prefix as a range (such as a NAT pool) wherein every IP address is valid and assignable. This logic is used for identifying available IP addresses within a prefix. If this flag is disabled, NetBox will assume that the first and last (broadcast) address within the prefix are unusable.
---
# IP Addresses
An IP address comprises a single host address (either IPv4 or IPv6) and its subnet mask. Its mask should match exactly how the IP address is configured on an interface in the real world.
Like prefixes, an IP address can optionally be assigned to a VRF (otherwise, it will appear in the "global" table). IP addresses are automatically organized under parent prefixes within their respective VRFs.
Also like prefixes, each IP address can be assigned a status and a role. Statuses are hard-coded in NetBox and include the following:
* Active
* Reserved
* Deprecated
* DHCP
Each IP address can optionally be assigned a special role. Roles are used to indicate some special attribute of an IP address: for example, it is used as a loopback, or is a virtual IP maintained using VRRP. (Note that this differs in purpose from a _functional_ role, and thus cannot be customized.) Available roles include:
* Loopback
* Secondary
* Anycast
* VIP
* VRRP
* HSRP
* GLBP
An IP address can be assigned to a device or virtual machine interface, and an interface may have multiple IP addresses assigned to it. Further, each device and virtual machine may have one of its interface IPs designated as its primary IP address (one for IPv4 and one for IPv6).
## Network Address Translation (NAT)
An IP address can be designated as the network address translation (NAT) inside IP address for exactly one other IP address. This is useful primarily to denote a translation between public and private IP addresses. This relationship is followed in both directions: For example, if 10.0.0.1 is assigned as the inside IP for 192.0.2.1, 192.0.2.1 will be displayed as the outside IP for 10.0.0.1.
!!! note
NetBox does not support tracking one-to-many NAT relationships (also called port address translation). This type of policy requires additional logic to model and cannot be fully represented by IP address alone.
---
# Virtual Routing and Forwarding (VRF)
A VRF object in NetBox represents a virtual routing and forwarding (VRF) domain. Each VRF is essentially a separate routing table. VRFs are commonly used to isolate customers or organizations from one another within a network, or to route overlapping address space (e.g. multiple instances of the 10.0.0.0/8 space).
Each VRF is assigned a unique name and an optional route distinguisher (RD). The RD is expected to take one of the forms prescribed in [RFC 4364](https://tools.ietf.org/html/rfc4364#section-4.2), however its formatting is not strictly enforced.
Each prefix and IP address may be assigned to one (and only one) VRF. If you have a prefix or IP address which exists in multiple VRFs, you will need to create a separate instance of it in NetBox for each VRF. Any IP prefix or address not assigned to a VRF is said to belong to the "global" table.
By default, NetBox will allow duplicate prefixes to be assigned to a VRF. This behavior can be disabled by setting the "enforce unique" flag on the VRF model.
!!! note
Enforcement of unique IP space can be toggled for global table (non-VRF prefixes) using the `ENFORCE_GLOBAL_UNIQUE` configuration setting.

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# Services
A service represents a layer four TCP or UDP service available on a device or virtual machine. For example, you might want to document that an HTTP service is running on a device. Each service includes a name, protocol, and port number; for example, "SSH (TCP/22)" or "DNS (UDP/53)."
A service may optionally be bound to one or more specific IP addresses belonging to its parent device or VM. (If no IP addresses are bound, the service is assumed to be reachable via any assigned IP address.)

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# Sites
How you choose to use sites will depend on the nature of your organization, but typically a site will equate to a building or campus. For example, a chain of banks might create a site to represent each of its branches, a site for its corporate headquarters, and two additional sites for its presence in two colocation facilities.
Each site must be assigned one of the following operational statuses:
* Active
* Planned
* Retired
The site model provides a facility ID field which can be used to annotate a facility ID (such as a datacenter name) associated with the site. Each site may also have an autonomous system (AS) number and time zone associated with it. (Time zones are provided by the [pytz](https://pypi.org/project/pytz/) package.)
The site model also includes several fields for storing contact and address information.
## Regions
Sites can be arranged geographically using regions. A region might represent a continent, country, city, campus, or other area depending on your use case. Regions can be nested recursively to construct a hierarchy. For example, you might define several country regions, and within each of those several state or city regions to which sites are assigned.
---
# Racks
The rack model represents a physical two- or four-post equipment rack in which equipment is mounted. Each rack must be assigned to a site. Rack height is measured in *rack units* (U); racks are commonly between 42U and 48U tall, but NetBox allows you to define racks of arbitrary height. A toggle is provided to indicate whether rack units are in ascending or descending order.
Each rack is assigned a name and (optionally) a separate facility ID. This is helpful when leasing space in a data center your organization does not own: The facility will often assign a seemingly arbitrary ID to a rack (for example, "M204.313") whereas internally you refer to is simply as "R113." A unique serial number may also be associated with each rack.
A rack must be designated as one of the following types:
* 2-post frame
* 4-post frame
* 4-post cabinet
* Wall-mounted frame
* Wall-mounted cabinet
Each rack has two faces (front and rear) on which devices can be mounted. Rail-to-rail width may be 19 or 23 inches.
## Rack Groups
Racks can be arranged into groups. As with sites, how you choose to designate rack groups will depend on the nature of your organization. For example, if each site represents a campus, each group might represent a building within a campus. If each site represents a building, each rack group might equate to a floor or room.
Each rack group must be assigned to a parent site. Hierarchical recursion of rack groups is not currently supported.
## Rack Roles
Each rack can optionally be assigned a functional role. For example, you might designate a rack for compute or storage resources, or to house colocated customer devices. Rack roles are fully customizable.
## Rack Space Reservations
Users can reserve units within a rack for future use. Multiple non-contiguous rack units can be associated with a single reservation (but reservations cannot span multiple racks). A rack reservation may optionally designate a specific tenant.

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# Tenants
A tenant represents a discrete entity for administrative purposes. Typically, tenants are used to represent individual customers or internal departments within an organization. The following objects can be assigned to tenants:
* Sites
* Racks
* Rack reservations
* Devices
* VRFs
* Prefixes
* IP addresses
* VLANs
* Circuits
* Virtual machines
Tenant assignment is used to signify ownership of an object in NetBox. As such, each object may only be owned by a single tenant. For example, if you have a firewall dedicated to a particular customer, you would assign it to the tenant which represents that customer. However, if the firewall serves multiple customers, it doesn't *belong* to any particular customer, so tenant assignment would not be appropriate.
### Tenant Groups
Tenants can be organized by custom groups. For instance, you might create one group called "Customers" and one called "Acquisitions." The assignment of tenants to groups is optional.

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# Clusters
A cluster is a logical grouping of physical resources within which virtual machines run. A cluster must be assigned a type, and may optionally be assigned to a group and/or site.
Physical devices may be associated with clusters as hosts. This allows users to track on which host(s) a particular VM may reside. However, NetBox does not support pinning a specific VM within a cluster to a particular host device.
## Cluster Types
A cluster type represents a technology or mechanism by which a cluster is formed. For example, you might create a cluster type named "VMware vSphere" for a locally hosted cluster or "DigitalOcean NYC3" for one hosted by a cloud provider.
## Cluster Groups
Cluster groups may be created for the purpose of organizing clusters. The assignment of clusters to groups is optional.
---
# Virtual Machines
A virtual machine represents a virtual compute instance hosted within a cluster. Each VM must be associated with exactly one cluster.
Like devices, each VM can be assigned a platform and have interfaces created on it. VM interfaces behave similarly to device interfaces, and can be assigned IP addresses, VLANs, and services. However, given their virtual nature, they cannot be connected to other interfaces. Unlike physical devices, VMs cannot be assigned console or power ports, device bays, or inventory items.
The following resources can be defined for each VM:
* vCPU count
* Memory (MB)
* Disk space (GB)

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# VLANs
A VLAN represents an isolated layer two domain, identified by a name and a numeric ID (1-4094) as defined in [IEEE 802.1Q](https://en.wikipedia.org/wiki/IEEE_802.1Q). Each VLAN may be assigned to a site and/or VLAN group.
Each VLAN must be assigned one of the following operational statuses:
* Active
* Reserved
* Deprecated
Each VLAN may also be assigned a functional role. Prefixes and VLANs share the same set of customizable roles.
## VLAN Groups
VLAN groups can be used to organize VLANs within NetBox. Groups can also be used to enforce uniqueness: Each VLAN within a group must have a unique ID and name. VLANs which are not assigned to a group may have overlapping names and IDs (including VLANs which belong to a common site). For example, you can create two VLANs with ID 123, but they cannot both be assigned to the same group.

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The circuits component of NetBox deals with the management of long-haul Internet and private transit links and providers.
# Providers
A provider is any entity which provides some form of connectivity. While this obviously includes carriers which offer Internet and private transit service, it might also include Internet exchange (IX) points and even organizations with whom you peer directly.
Each provider may be assigned an autonomous system number (ASN), an account number, and relevant contact information.
Each provider may be assigned an autonomous system number (ASN), an account number, and contact information.
---
# Circuits
A circuit represents a single _physical_ link connecting exactly two endpoints. (A circuit with more than two endpoints is a virtual circuit, which is not currently supported by NetBox.) Each circuit belongs to a provider and must be assigned a circuit ID which is unique to that provider.
A circuit represents a single physical data link connecting two endpoints. Each circuit belongs to a provider and must be assigned a circuit ID which is unique to that provider.
## Circuit Types
### Circuit Types
Circuits are classified by type. For example, you might define circuit types for:
@@ -21,14 +23,11 @@ Circuits are classified by type. For example, you might define circuit types for
Circuit types are fully customizable.
## Circuit Terminations
### Circuit Terminations
A circuit may have one or two terminations, annotated as the "A" and "Z" sides of the circuit. A single-termination circuit can be used when you don't know (or care) about the far end of a circuit (for example, an Internet access circuit which connects to a transit provider). A dual-termination circuit is useful for tracking circuits which connect two sites.
Each circuit termination is tied to a site, and may optionally be connected via a cable to a specific device interface or pass-through port. Each termination can be assigned a separate downstream and upstream speed independent from one another. Fields are also available to track cross-connect and patch panel details.
Each circuit termination is tied to a site, and optionally to a specific device and interface within that site. Each termination can be assigned a separate downstream and upstream speed independent from one another. Fields are also available to track cross-connect and patch panel details.
!!! note
A circuit represents a physical link, and cannot have more than two endpoints. When modeling a multi-point topology, each leg of the topology must be defined as a discrete circuit.
!!! note
A circuit may terminate only to a physical interface. Circuits may not terminate to LAG interfaces, which are virtual interfaces: You must define each physical circuit within a service bundle separately and terminate it to its actual physical interface.

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Data center infrastructure management (DCIM) entails all physical assets: sites, racks, devices, cabling, etc.
# Sites
How you choose to use sites will depend on the nature of your organization, but typically a site will equate to a building or campus. For example, a chain of banks might create a site to represent each of its branches, a site for its corporate headquarters, and two additional sites for its presence in two colocation facilities.
Sites can be assigned an optional facility ID to identify the actual facility housing colocated equipment, and an Autonomous System (AS) number.
### Regions
Sites can be arranged geographically using regions. A region might represent a continent, country, city, campus, or other area depending on your use case. Regions can be nested recursively to construct a hierarchy. For example, you might define several country regions, and within each of those several state or city regions to which sites are assigned.
---
# Racks
The rack model represents a physical two- or four-post equipment rack in which equipment is mounted. Each rack is assigned to a site. Rack height is measured in *rack units* (U); racks are commonly between 42U and 48U, but NetBox allows you to define racks of arbitrary height. Each rack has two faces (front and rear) on which devices can be mounted.
Each rack is assigned a name and (optionally) a separate facility ID. This is helpful when leasing space in a data center your organization does not own: The facility will often assign a seemingly arbitrary ID to a rack (for example, "M204.313") whereas internally you refer to is simply as "R113." The facility ID can alternatively be used to store a rack's serial number.
The available rack types include 2- and 4-post frames, 4-post cabinet, and wall-mounted frame and cabinet. Rail-to-rail width may be 19 or 23 inches.
### Rack Groups
Racks can be arranged into groups. As with sites, how you choose to designate rack groups will depend on the nature of your organization. For example, if each site represents a campus, each group might represent a building within a campus. If each site represents a building, each rack group might equate to a floor or room.
Each group is assigned to a parent site for easy navigation. Hierarchical recursion of rack groups is not supported.
### Rack Roles
Each rack can optionally be assigned a functional role. For example, you might designate a rack for compute or storage resources, or to house colocated customer devices. Rack roles are fully customizable.
### Rack Space Reservations
Users can reserve units within a rack for future use. Multiple non-contiguous rack units can be associated with a single reservation (but reservations cannot span multiple racks).
---
# Device Types
A device type represents a particular hardware model that exists in the real world. Device types describe the physical attributes of a device (rack height and depth), its class (e.g. console server, PDU, etc.), and its individual components (console, power, and data).
Device types are instantiated as devices installed within racks. For example, you might define a device type to represent a Juniper EX4300-48T network switch with 48 Ethernet interfaces. You can then create multiple devices of this type named "switch1," "switch2," and so on. Each device will inherit the components (such as interfaces) of its device type.
### Manufacturers
Each device type belongs to one manufacturer; e.g. Cisco, Opengear, or APC. The model number of a device type must be unique to its manufacturer.
### Component Templates
Each device type is assigned a number of component templates which define the physical interfaces a device has. These are:
* Console ports
* Console server ports
* Power ports
* Power outlets
* Interfaces
* Device bays
Whenever a new device is created, it is automatically assigned components per the templates assigned to its device type. For example, a Juniper EX4300-48T device type might have the following component templates:
* One template for a console port ("Console")
* Two templates for power ports ("PSU0" and "PSU1")
* 48 templates for 1GE interfaces ("ge-0/0/0" through "ge-0/0/47")
* Four templates for 10GE interfaces ("xe-0/2/0" through "xe-0/2/3")
Once component templates have been created, every new device that you create as an instance of this type will automatically be assigned each of the components listed above.
!!! note
Assignment of components from templates occurs only at the time of device creation. If you modify the templates of a device type, it will not affect devices which have already been created. However, you always have the option of adding, modifying, or deleting components of existing devices individually.
---
# Devices
Every piece of hardware which is installed within a rack exists in NetBox as a device. Devices are measured in rack units (U) and depth. 0U devices which can be installed in a rack but don't consume vertical rack space (such as a vertically-mounted power distribution unit) can also be defined.
When assigning a multi-U device to a rack, it is considered to be mounted in the lowest-numbered rack unit which it occupies. For example, a 3U device which occupies U8 through U10 shows as being mounted in U8. This logic applies to racks with both ascending and descending unit numbering.
A device is said to be "full depth" if its installation on one rack face prevents the installation of any other device on the opposite face within the same rack unit(s). This could be either because the device is physically too deep to allow a device behind it, or because the installation of an opposing device would impede air flow.
### Roles
NetBox allows for the definition of arbitrary device roles by which devices can be organized. For example, you might create roles for core switches, distribution switches, and access switches. In the interest of simplicity, a device can belong to only one role.
### Platforms
A device's platform is used to denote the type of software running on it. This can be helpful when it is necessary to distinguish between, for instance, different feature sets. Note that two devices of same type may be assigned different platforms: for example, one Juniper MX240 running Junos 14 and another running Junos 15.
The assignment of platforms to devices is an optional feature, and may be disregarded if not desired.
### Inventory Items
Inventory items represent hardware components installed within a device, such as a power supply or CPU. Currently, these are used merely for inventory tracking, although future development might see their functionality expand. Each item can optionally be assigned a manufacturer.
!!! note
Prior to version 2.0, inventory items were called modules.
### Components
There are six types of device components which comprise all of the interconnection logic with NetBox:
* Console ports
* Console server ports
* Power ports
* Power outlets
* Interfaces
* Device bays
Console ports connect only to console server ports, and power ports connect only to power outlets. Interfaces connect to one another in a symmetric manner: If interface A connects to interface B, interface B therefore connects to interface A. (The relationship between two interfaces is actually represented in the database by an InterfaceConnection object, but this is transparent to the user.) Each type of connection can be classified as either *planned* or *connected*. This allows for easily denoting connections which have not yet been installed.
Each interface is a assigned a form factor denoting its physical properties. Two special form factors exist: the "virtual" form factor can be used to designate logical interfaces (such as SVIs), and the "LAG" form factor can be used to desinate link aggregation groups to which physical interfaces can be assigned. Each interface can also be designated as management-only (for out-of-band management) and assigned a short description.
Device bays represent the ability of a device to house child devices. For example, you might install four blade servers into a 2U chassis. The chassis would appear in the rack elevation as a 2U device with four device bays. Each server within it would be defined as a 0U device installed in one of the device bays. Child devices do not appear on rack elevations, but they are included in the "Non-Racked Devices" list within the rack view.
---
# Virtual Chassis
A virtual chassis represents a set of devices which share a single control plane: for example, a stack of switches which are managed as a single device. Each device in the virtual chassis is assigned a position and (optionally) a priority. Exactly one device is designated the virtual chassis master: This device will typically be assigned a name, secrets, services, and other attributes related to its management.
It's important to recognize the distinction between a virtual chassis and a chassis-based device. For instance, a virtual chassis is not used to model a chassis switch with removable line cards such as the Juniper EX9208, as its line cards are _not_ physically separate devices capable of operating independently.

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This section entails features of NetBox which are not crucial to its primary functions, but provide additional value.
# Custom Fields
Each object in NetBox is represented in the database as a discrete table, and each attribute of an object exists as a column within its table. For example, sites are stored in the `dcim_site` table, which has columns named `name`, `facility`, `physical_address`, and so on. As new attributes are added to objects throughout the development of NetBox, tables are expanded to include new rows.
However, some users might want to associate with objects attributes that are somewhat esoteric in nature, and that would not make sense to include in the core NetBox database schema. For instance, suppose your organization needs to associate each device with a ticket number pointing to the support ticket that was opened to have it installed. This is certainly a legitimate use for NetBox, but it's perhaps not a common enough need to warrant expanding the internal data schema. Instead, you can create a custom field to hold this data.
Custom fields must be created through the admin UI under Extras > Custom Fields. To create a new custom field, select the object(s) to which you want it to apply, and the type of field it will be. NetBox supports six field types:
* Free-form text (up to 255 characters)
* Integer
* Boolean (true/false)
* Date
* URL
* Selection
Assign the field a name. This should be a simple database-friendly string, e.g. `tps_report`. You may optionally assign the field a human-friendly label (e.g. "TPS report") as well; the label will be displayed on forms. If a description is provided, it will appear beneath the field in a form.
Marking the field as required will require the user to provide a value for the field when creating a new object or when saving an existing object. A default value for the field may also be provided. Use "true" or "false" for boolean fields. (The default value has no effect for selection fields.)
When creating a selection field, you should create at least two choices. These choices will be arranged first by weight, with lower weights appearing higher in the list, and then alphabetically.
## Using Custom Fields
When a single object is edited, the form will include any custom fields which have been defined for the object type. These fields are included in the "Custom Fields" panel. On the backend, each custom field value is saved separately from the core object as an independent database call, so it's best to avoid adding too many custom fields per object.
When editing multiple objects, custom field values are saved in bulk. There is no significant difference in overhead when saving a custom field value for 100 objects versus one object. However, the bulk operation must be performed separately for each custom field.
# Export Templates
NetBox allows users to define custom templates that can be used when exporting objects. To create an export template, navigate to Extras > Export Templates under the admin interface.
Each export template is associated with a certain type of object. For instance, if you create an export template for VLANs, your custom template will appear under the "Export" button on the VLANs list.
Export templates are written in [Django's template language](https://docs.djangoproject.com/en/1.9/ref/templates/language/), which is very similar to Jinja2. The list of objects returned from the database is stored in the `queryset` variable, which you'll typically want to iterate through using a `for` loop. Object properties can be access by name. For example:
```
{% for rack in queryset %}
Rack: {{ rack.name }}
Site: {{ rack.site.name }}
Height: {{ rack.u_height }}U
{% endfor %}
```
To access custom fields of an object within a template, use the `cf` attribute. For example, `{{ obj.cf.color }}` will return the value (if any) for a custom field named `color` on `obj`.
A MIME type and file extension can optionally be defined for each export template. The default MIME type is `text/plain`.
## Example
Here's an example device export template that will generate a simple Nagios configuration from a list of devices.
```
{% for device in queryset %}{% if device.status and device.primary_ip %}define host{
use generic-switch
host_name {{ device.name }}
address {{ device.primary_ip.address.ip }}
}
{% endif %}{% endfor %}
```
The generated output will look something like this:
```
define host{
use generic-switch
host_name switch1
address 192.0.2.1
}
define host{
use generic-switch
host_name switch2
address 192.0.2.2
}
define host{
use generic-switch
host_name switch3
address 192.0.2.3
}
```
# Graphs
NetBox does not have the ability to generate graphs natively, but this feature allows you to embed contextual graphs from an external resources (such as a monitoring system) inside the site, provider, and interface views. Each embedded graph must be defined with the following parameters:
* **Type:** Site, provider, or interface. This determines in which view the graph will be displayed.
* **Weight:** Determines the order in which graphs are displayed (lower weights are displayed first). Graphs with equal weights will be ordered alphabetically by name.
* **Name:** The title to display above the graph.
* **Source URL:** The source of the image to be embedded. The associated object will be available as a template variable named `obj`.
* **Link URL (optional):** A URL to which the graph will be linked. The associated object will be available as a template variable named `obj`.
## Examples
You only need to define one graph object for each graph you want to include when viewing an object. For example, if you want to include a graph of traffic through an interface over the past five minutes, your graph source might looks like this:
```
https://my.nms.local/graphs/?node={{ obj.device.name }}&interface={{ obj.name }}&duration=5m
```
You can define several graphs to provide multiple contexts when viewing an object. For example:
```
https://my.nms.local/graphs/?type=throughput&node={{ obj.device.name }}&interface={{ obj.name }}&duration=60m
https://my.nms.local/graphs/?type=throughput&node={{ obj.device.name }}&interface={{ obj.name }}&duration=24h
https://my.nms.local/graphs/?type=errors&node={{ obj.device.name }}&interface={{ obj.name }}&duration=60m
```
# Topology Maps
NetBox can generate simple topology maps from the physical network connections recorded in its database. First, you'll need to create a topology map definition under the admin UI at Extras > Topology Maps.
Each topology map is associated with a site. A site can have multiple topology maps, which might each illustrate a different aspect of its infrastructure (for example, production versus backend infrastructure).
To define the scope of a topology map, decide which devices you want to include. The map will only include interface connections with both points terminated on an included device. Specify the devices to include in the **device patterns** field by entering a list of [regular expressions](https://en.wikipedia.org/wiki/Regular_expression) matching device names. For example, if you wanted to include "mgmt-switch1" through "mgmt-switch99", you might use the regex `mgmt-switch\d+`.
Each line of the **device patterns** field represents a hierarchical layer within the topology map. For example, you might map a traditional network with core, distribution, and access tiers like this:
```
core-switch-[abcd]
dist-switch\d
access-switch\d+;oob-switch\d+
```
Note that you can combine multiple regexes onto one line using semicolons. The order in which regexes are listed on a line is significant: devices matching the first regex will be rendered first, and subsequent groups will be rendered to the right of those.
# Image Attachments
Certain objects within NetBox (namely sites, racks, and devices) can have photos or other images attached to them. (Note that _only_ image files are supported.) Each attachment may optionally be assigned a name; if omitted, the attachment will be represented by its file name.
!!! note
If you experience a server error while attempting to upload an image attachment, verify that the system user NetBox runs as has write permission to the media root directory (`netbox/media/`).

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IP address management (IPAM) entails the allocation of IP networks, addresses, and related numeric resources.
# VRFs
A VRF object in NetBox represents a virtual routing and forwarding (VRF) domain within a network. Each VRF is essentially a separate routing table: the same IP prefix or address can exist in multiple VRFs. VRFs are commonly used to isolate customers or organizations from one another within a network.
Each VRF is assigned a name and a unique route distinguisher (RD). VRFs are an optional feature of NetBox: Any IP prefix or address not assigned to a VRF is said to belong to the "global" table.
!!! note
By default, NetBox allows for overlapping IP space both in the global table and within each VRF. Unique space enforcement can be toggled per-VRF as well as in the global table using the `ENFORCE_GLOBAL_UNIQUE` configuration setting.
---
# Aggregates
IP address space is organized as a hierarchy, with more-specific (smaller) prefixes arranged as child nodes under less-specific (larger) prefixes. For example:
* 10.0.0.0/8
* 10.1.0.0/16
* 10.1.2.0/24
The root of the IPv4 hierarchy is 0.0.0.0/0, which encompasses all possible IPv4 addresses (and similarly, ::/0 for IPv6). However, even the largest organizations use only a small fraction of the global address space. Therefore, it makes sense to track in NetBox only the address space which is of interest to your organization.
Aggregates serve as arbitrary top-level nodes in the IP space hierarchy. They allow you to easily construct your IP scheme without any clutter of unused address space. For instance, most organizations utilize some portion of the private IPv4 space set aside in RFC 1918. So, you might define three aggregates for this space:
* 10.0.0.0/8
* 172.16.0.0/12
* 192.168.0.0/16
Additionally, you might define an aggregate for each large swath of public IPv4 space your organization uses. You'd also create aggregates for both globally routable and unique local IPv6 space. (Most organizations will not have a need to track IPv6 link local space.)
Prefixes you create in NetBox (discussed below) will be automatically organized under their respective aggregates. Any space within an aggregate which is not covered by an existing prefix will be annotated as available for allocation. Total utilization for each aggregate is displayed in the aggregates list.
Aggregates cannot overlap with one another; they can only exist in parallel. For instance, you cannot define both 10.0.0.0/8 and 10.16.0.0/16 as aggregates, because they overlap. 10.16.0.0/16 in this example would be created as a prefix and automatically grouped under 10.0.0.0/8.
### RIRs
Regional Internet Registries (RIRs) are responsible for the allocation of global address space. The five RIRs are ARIN, RIPE, APNIC, LACNIC, and AFRINIC. However, some address space has been set aside for private or internal use only, such as defined in RFCs 1918 and 6598. NetBox considers these RFCs as a sort of RIR as well; that is, an authority which "owns" certain address space.
Each aggregate must be assigned to one RIR. You are free to define whichever RIRs you choose (or create your own). Each RIR can be annotated as representing only private space.
---
# Prefixes
A prefix is an IPv4 or IPv6 network and mask expressed in CIDR notation (e.g. 192.0.2.0/24). A prefix entails only the "network portion" of an IP address; all bits in the address not covered by the mask must be zero.
Each prefix may be assigned to one VRF; prefixes not assigned to a VRF are assigned to the "global" table. Prefixes are also organized under their respective aggregates, irrespective of VRF assignment.
A prefix may optionally be assigned to one VLAN; a VLAN may have multiple prefixes assigned to it. Each prefix may also be assigned a short description.
### Statuses
Each prefix is assigned an operational status. This is one of the following:
* Container - A summary of child prefixes
* Active - Provisioned and in use
* Reserved - Designated for future use
* Deprecated - No longer in use
### Roles
Whereas a status describes a prefix's operational state, a role describes its function. For example, roles might include:
* Access segment
* Infrastructure
* NAT
* Lab
* Out-of-band
Role assignment is optional and roles are fully customizable.
---
# IP Addresses
An IP address comprises a single address (either IPv4 or IPv6) and its subnet mask. Its mask should match exactly how the IP address is configured on an interface in the real world.
Like prefixes, an IP address can optionally be assigned to a VRF (or it will appear in the "global" table). IP addresses are automatically organized under parent prefixes within their respective VRFs. Each IP address can also be assigned a short description.
An IP address can be assigned to a device's interface; an interface may have multiple IP addresses assigned to it. Further, each device may have one of its interface IPs designated as its primary IP address (for both IPv4 and IPv6).
One IP address can be designated as the network address translation (NAT) IP address for exactly one other IP address. This is useful primarily to denote the public address for a private internal IP. Tracking one-to-many NAT (or PAT) assignments is not supported.
---
# VLANs
A VLAN represents an isolated layer two domain, identified by a name and a numeric ID (1-4094) as defined in [IEEE 802.1Q](https://en.wikipedia.org/wiki/IEEE_802.1Q). Each VLAN may be assigned to a site and/or VLAN group. Like prefixes, each VLAN is assigned an operational status and (optionally) a functional role, and may include a short description.
### VLAN Groups
VLAN groups can be employed for administrative organization within NetBox. Each VLAN within a group must have a unique ID and name. VLANs which are not assigned to a group may have overlapping names and IDs, including within a site.
---
# Services
A service represents a TCP or UDP service available on a device or virtual machine. Each service must be defined with a name, protocol, and port number; for example, "SSH (TCP/22)." A service may optionally be bound to one or more specific IP addresses belonging to its parent. (If no IP addresses are bound, the service is assumed to be reachable via any assigned IP address.)

8
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@@ -1,12 +1,14 @@
"Secrets" are small amounts of data that must be kept confidential; for example, passwords and SNMP community strings. NetBox provides encrypted storage of secret data.
# Secrets
A secret represents a single credential or other sensitive string of characters which must be stored securely. Each secret is assigned to a device within NetBox. The plaintext value of a secret is encrypted to a ciphertext immediately prior to storage within the database using a 256-bit AES master key. A SHA256 hash of the plaintext is also stored along with each ciphertext to validate the decrypted plaintext.
A secret represents a single credential or other string which must be stored securely. Each secret is assigned to a device within NetBox. The plaintext value of a secret is encrypted to a ciphertext immediately prior to storage within the database using a 256-bit AES master key. A SHA256 hash of the plaintext is also stored along with each ciphertext to validate the decrypted plaintext.
Each secret can also store an optional name parameter, which is not encrypted. This may be useful for storing user names.
## Roles
### Roles
Each secret is assigned a functional role which indicates what it is used for. Secret roles are customizable. Typical roles might include:
Each secret is assigned a functional role which indicates what it is used for. Typical roles might include:
* Login credentials
* SNMP community strings

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@@ -0,0 +1,20 @@
NetBox supports the assignment of resources to tenant organizations. Typically, these are used to represent individual customers of or internal departments within the organization using NetBox.
# Tenants
A tenant represents a discrete organization. The following objects can be assigned to tenants:
* Sites
* Racks
* Devices
* VRFs
* Prefixes
* IP addresses
* VLANs
* Circuits
If a prefix or IP address is not assigned to a tenant, it will appear to inherit the tenant to which its parent VRF is assigned, if any.
### Tenant Groups
Tenants can be grouped by type. For instance, you might create one group called "Customers" and one called "Acquisitions." The assignment of tenants to groups is optional.

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@@ -0,0 +1,29 @@
NetBox supports the definition of virtual machines arranged in clusters. A cluster can optionally have physical host devices associated with it.
# Clusters
A cluster is a logical grouping of physical resources within which virtual machines run. A cluster must be assigned a type, and may optionally be assigned an organizational group.
Physical devices (from NetBox's DCIM component) may be associated with clusters as hosts. This allows users to track on which host(s) a particular VM may reside. However, NetBox does not support pinning a specific VM within a cluster to a particular host device.
### Cluster Types
A cluster type represents a technology or mechanism by which a cluster is formed. For example, you might create a cluster type named "VMware vSphere" for a locally hosted cluster or "DigitalOcean NYC3" for one hosted by a cloud provider.
### Cluster Groups
Cluster groups may be created for the purpose of organizing clusters.
---
# Virtual Machines
A virtual machine represents a virtual compute instance hosted within a cluster. Each VM must be associated with exactly one cluster.
Like devices, each VM can have interfaces created on it. These behave similarly to device interfaces, and can be assigned IP addresses, however given their virtual nature they cannot be connected to other interfaces. VMs can also be assigned layer four services. Unlike physical devices, VMs cannot be assigned console or power ports, or device bays.
The following resources can be defined for each VM:
* vCPU count
* Memory (MB)
* Disk space (GB)

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@@ -1,74 +0,0 @@
# Extending Models
Below is a list of items to consider when adding a new field to a model:
### 1. Generate and run database migration
Django migrations are used to express changes to the database schema. In most cases, Django can generate these automatically, however very complex changes may require manual intervention. Always remember to specify a short but descriptive name when generating a new migration.
```
./manage.py makemigrations <app> -n <name>
./manage.py migrate
```
Where possible, try to merge related changes into a single migration. For example, if three new fields are being added to different models within an app, these can be expressed in the same migration. You can merge a new migration with an existing one by combining their `operations` lists.
!!! note
Migrations can only be merged within a release. Once a new release has been published, its migrations cannot be altered.
### 2. Add validation logic to `clean()`
If the new field introduces additional validation requirements (beyond what's included with the field itself), implement them in the model's `clean()` method. Remember to call the model's original method using `super()` before or agter your custom validation as appropriate:
```
class Foo(models.Model):
def clean(self):
super(DeviceCSVForm, self).clean()
# Custom validation goes here
if self.bar is None:
raise ValidationError()
```
### 3. Add CSV helpers
Add the name of the new field to `csv_headers` and included a CSV-friendly representation of its data in the model's `to_csv()` method. These will be used when exporting objects in CSV format.
### 4. Update relevant querysets
If you're adding a relational field (e.g. `ForeignKey`) and intend to include the data when retreiving a list of objects, be sure to include the field using `select_related()` or `prefetch_related()` as appropriate. This will optimize the view and avoid excessive database lookups.
### 5. Update API serializer
Extend the model's API serializer in `<app>.api.serializers` to include the new field. In most cases, it will not be necessary to also extend the nested serializer, which produces a minimal represenation of the model.
### 6. Add choices to API view
If the new field has static choices, add it to the `FieldChoicesViewSet` for the app.
### 7. Add field to forms
Extend any forms to include the new field as appropriate. Common forms include:
* **Credit/edit** - Manipulating a single object
* **Bulk edit** - Performing a change on mnay objects at once
* **CSV import** - The form used when bulk importing objects in CSV format
* **Filter** - Displays the options available for filtering a list of objects (both UI and API)
### 8. Extend object filter set
If the new field should be filterable, add it to the `FilterSet` for the model. If the field should be searchable, remember to reference it in the FilterSet's `search()` method.
### 9. Add column to object table
If the new field will be included in the object list view, add a column to the model's table. For simple fields, adding the field name to `Meta.fields` will be sufficient. More complex fields may require explicitly declaring a new column.
### 10. Update the UI templates
Edit the object's view template to display the new field. There may also be a custom add/edit form template that needs to be updated.
### 11. Adjust API and model tests
Extend the model and/or API tests to verify that the new field and any accompanying validation logic perform as expected. This is especially important for relational fields.

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@@ -1,30 +0,0 @@
# NetBox Development
NetBox is maintained as a [GitHub project](https://github.com/netbox-community/netbox) under the Apache 2 license. Users are encouraged to submit GitHub issues for feature requests and bug reports, however we are very selective about pull requests. Please see the `CONTRIBUTING` guide for more direction on contributing to NetBox.
## Communication
Communication among developers should always occur via public channels:
* [GitHub issues](https://github.com/netbox-community/netbox/issues) - All feature requests, bug reports, and other substantial changes to the code base **must** be documented in an issue.
* [The mailing list](https://groups.google.com/forum/#!forum/netbox-discuss) - The preferred forum for general discussion and support issues. Ideal for shaping a feature request prior to submitting an issue.
* [#netbox on NetworkToCode](http://slack.networktocode.com/) - Good for quick chats. Avoid any discussion that might need to be referenced later on, as the chat history is not retained long.
## Governance
NetBox follows the [benevolent dictator](http://oss-watch.ac.uk/resources/benevolentdictatorgovernancemodel) model of governance, with [Jeremy Stretch](https://github.com/jeremystretch) ultimately responsible for all changes to the code base. While community contributions are welcomed and encouraged, the lead maintainer's primary role is to ensure the project's long-term maintainability and continued focus on its primary functions (in other words, avoid scope creep).
## Project Structure
All development of the current NetBox release occurs in the `develop` branch; releases are packaged from the `master` branch. The `master` branch should _always_ represent the current stable release in its entirety, such that installing NetBox by either downloading a packaged release or cloning the `master` branch provides the same code base.
NetBox components are arranged into functional subsections called _apps_ (a carryover from Django verancular). Each app holds the models, views, and templates relevant to a particular function:
* `circuits`: Communications circuits and providers (not to be confused with power circuits)
* `dcim`: Datacenter infrastructure management (sites, racks, and devices)
* `extras`: Additional features not considered part of the core data model
* `ipam`: IP address management (VRFs, prefixes, IP addresses, and VLANs)
* `secrets`: Encrypted storage of sensitive data (e.g. login credentials)
* `tenancy`: Tenants (such as customers) to which NetBox objects may be assigned
* `utilities`: Resources which are not user-facing (extendable classes, etc.)
* `virtualization`: Virtual machines and clusters

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@@ -1,82 +0,0 @@
# Minor Version Bumps
## Update Requirements
Required Python packages are maintained in two files. `base_requirements.txt` contains a list of all the packages required by NetBox. Some of them may be pinned to a specific version of the package due to a known issue. For example:
```
# https://github.com/encode/django-rest-framework/issues/6053
djangorestframework==3.8.1
```
The other file is `requirements.txt`, which lists each of the required packages pinned to its current stable version. When NetBox is installed, the Python environment is configured to match this file. This helps ensure that a new release of a dependency doesn't break NetBox.
Every minor version release should refresh `requirements.txt` so that it lists the most recent stable release of each package. To do this:
1. Create a new virtual environment.
2. Install the latest version of all required packages via pip:
```
pip install -U -r base_requirements.txt
```
3. Run all tests and check that the UI and API function as expected.
4. Update the package versions in `requirements.txt` as appropriate.
## Update Static Libraries
Update the following static libraries to their most recent stable release:
* Bootstrap 3
* Font Awesome 4
* Select2
* jQuery
* jQuery UI
## Manually Perform a New Install
Create a new installation of NetBox by following [the current documentation](http://netbox.readthedocs.io/en/latest/). This should be a manual process, so that issues with the documentation can be identified and corrected.
## Close the Release Milestone
Close the release milestone on GitHub. Ensure that there are no remaining open issues associated with it.
---
# All Releases
## Verify CI Build Status
Ensure that continuous integration testing on the `develop` branch is completing successfully.
## Update Version and Changelog
Update the `VERSION` constant in `settings.py` to the new release version and add the current date to the release notes in `CHANGELOG.md`.
## Submit a Pull Request
Submit a pull request title **"Release vX.Y.X"** to merge the `develop` branch into `master`. Include a brief change log listing the features, improvements, and/or bugs addressed in the release.
Once CI has completed on the PR, merge it.
## Create a New Release
Draft a [new release](https://github.com/netbox-community/netbox/releases/new) with the following parameters.
* **Tag:** Current version (e.g. `v2.3.4`)
* **Target:** `master`
* **Title:** Version and date (e.g. `v2.3.4 - 2018-08-02`)
Copy the description from the pull request into the release notes.
## Update the Development Version
On the `develop` branch, update `VERSION` in `settings.py` to point to the next release. For example, if you just released v2.3.4, set:
```
VERSION = 'v2.3.5-dev'
```
## Announce the Release
Announce the release on the [mailing list](https://groups.google.com/forum/#!forum/netbox-discuss). Include a link to the release and the (HTML-formatted) release notes.

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@@ -1,54 +0,0 @@
# Style Guide
NetBox generally follows the [Django style guide](https://docs.djangoproject.com/en/dev/internals/contributing/writing-code/coding-style/), which is itself based on [PEP 8](https://www.python.org/dev/peps/pep-0008/). [Pycodestyle](https://github.com/pycqa/pycodestyle) is used to validate code formatting, ignoring certain violations. See `scripts/cibuild.sh`.
## PEP 8 Exceptions
* Wildcard imports (for example, `from .constants import *`) are acceptable under any of the following conditions:
* The library being import contains only constant declarations (`constants.py`)
* The library being imported explicitly defines `__all__` (e.g. `<app>.api.nested_serializers`)
* Maximum line length is 120 characters (E501)
* This does not apply to HTML templates or to automatically generated code (e.g. database migrations).
* Line breaks are permitted following binary operators (W504)
## Enforcing Code Style
The `pycodestyle` utility (previously `pep8`) is used by the CI process to enforce code style. It is strongly recommended to include as part of your commit process. A git commit hook is provided in the source at `scripts/git-hooks/pre-commit`. Linking to this script from `.git/hooks/` will invoke `pycodestyle` prior to every commit attempt and abort if the validation fails.
```
$ cd .git/hooks/
$ ln -s ../../scripts/git-hooks/pre-commit
```
To invoke `pycodestyle` manually, run:
```
pycodestyle --ignore=W504,E501 netbox/
```
## Introducing New Dependencies
The introduction of a new dependency is best avoided unless it is absolutely necessary. For small features, it's generally preferable to replicate functionality within the NetBox code base rather than to introduce reliance on an external project. This reduces both the burden of tracking new releases and our exposure to outside bugs and attacks.
If there's a strong case for introducing a new depdency, it must meet the following criteria:
* Its complete source code must be published and freely accessible without registration.
* Its license must be conducive to inclusion in an open source project.
* It must be actively maintained, with no longer than one year between releases.
* It must be available via the [Python Package Index](https://pypi.org/) (PyPI).
When adding a new dependency, a short description of the package and the URL of its code repository must be added to `base_requirements.txt`. Additionally, a line specifying the package name pinned to the current stable release must be added to `requirements.txt`. This ensures that NetBox will install only the known-good release and simplify support efforts.
## General Guidance
* When in doubt, remain consistent: It is better to be consistently incorrect than inconsistently correct. If you notice in the course of unrelated work a pattern that should be corrected, continue to follow the pattern for now and open a bug so that the entire code base can be evaluated at a later point.
* No easter eggs. While they can be fun, NetBox must be considered as a business-critical tool. The potential, however minor, for introducing a bug caused by unnecessary logic is best avoided entirely.
* Constants (variables which generally do not change) should be declared in `constants.py` within each app. Wildcard imports from the file are acceptable.
* Every model should have a docstring. Every custom method should include an expalantion of its function.
* Nested API serializers generate minimal representations of an object. These are stored separately from the primary serializers to avoid circular dependencies. Always import nested serializers from other apps directly. For example, from within the DCIM app you would write `from ipam.api.nested_serializers import NestedIPAddressSerializer`.

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@@ -1,5 +1,3 @@
![NetBox](netbox_logo.png "NetBox logo")
# What is NetBox?
NetBox is an open source web application designed to help manage and document computer networks. Initially conceived by the network engineering team at [DigitalOcean](https://www.digitalocean.com/), NetBox was developed specifically to address the needs of network and infrastructure engineers. It encompasses the following aspects of network management:
@@ -12,7 +10,7 @@ NetBox is an open source web application designed to help manage and document co
* **Data circuits** - Long-haul communications circuits and providers
* **Secrets** - Encrypted storage of sensitive credentials
# What NetBox Is Not
# What NetBox Isn't
While NetBox strives to cover many areas of network management, the scope of its feature set is necessarily limited. This ensures that development focuses on core functionality and that scope creep is reasonably contained. To that end, it might help to provide some examples of functionality that NetBox **does not** provide:
@@ -44,15 +42,13 @@ When given a choice between a relatively simple [80% solution](https://en.wikipe
NetBox is built on the [Django](https://djangoproject.com/) Python framework and utilizes a [PostgreSQL](https://www.postgresql.org/) database. It runs as a WSGI service behind your choice of HTTP server.
| Function | Component |
|--------------------|-------------------|
| HTTP service | nginx or Apache |
| WSGI service | gunicorn or uWSGI |
| Application | Django/Python |
| Database | PostgreSQL 9.4+ |
| Task queuing | Redis/django-rq |
| Live device access | NAPALM |
| Function | Component |
|--------------|-------------------|
| HTTP Service | nginx or Apache |
| WSGI Service | gunicorn or uWSGI |
| Application | Django/Python |
| Database | PostgreSQL 9.4+ |
# Getting Started
See the [installation guide](installation/index.md) for help getting NetBox up and running quickly.
See the [installation guide](installation/postgresql.md) for help getting NetBox up and running quickly.

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@@ -1,14 +0,0 @@
# Installation
The following sections detail how to set up a new instance of NetBox:
1. [PostgreSQL database](1-postgresql.md)
2. [NetBox components](2-netbox.md)
3. [HTTP dameon](3-http-daemon.md)
4. [LDAP authentication](4-ldap.md) (optional)
# Upgrading
If you are upgrading from an existing installation, please consult the [upgrading guide](upgrading.md).
NetBox v2.5 and later requires Python 3.5 or higher. Please see the instructions for [migrating to Python 3](migrating-to-python3.md) if you are still using Python 2.

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View File

@@ -7,19 +7,19 @@ This guide explains how to implement LDAP authentication using an external serve
On Ubuntu:
```no-highlight
sudo apt-get install -y libldap2-dev libsasl2-dev libssl-dev
sudo apt-get install -y python-dev libldap2-dev libsasl2-dev libssl-dev
```
On CentOS:
```no-highlight
sudo yum install -y openldap-devel
sudo yum install -y python-devel openldap-devel
```
## Install django-auth-ldap
```no-highlight
pip3 install django-auth-ldap
sudo pip install django-auth-ldap
```
# Configuration
@@ -81,13 +81,13 @@ AUTH_LDAP_USER_ATTR_MAP = {
# User Groups for Permissions
!!! info
When using Microsoft Active Directory, support for nested groups can be activated by using `NestedGroupOfNamesType()` instead of `GroupOfNamesType()` for `AUTH_LDAP_GROUP_TYPE`. You will also need to modify the import line to use `NestedGroupOfNamesType` instead of `GroupOfNamesType` .
When using Microsoft Active Directory, support for nested groups can be activated by using `NestedGroupOfNamesType()` instead of `GroupOfNamesType()` for `AUTH_LDAP_GROUP_TYPE`.
```python
from django_auth_ldap.config import LDAPSearch, GroupOfNamesType
# This search ought to return all groups to which the user belongs. django_auth_ldap uses this to determine group
# hierarchy.
# heirarchy.
AUTH_LDAP_GROUP_SEARCH = LDAPSearch("dc=example,dc=com", ldap.SCOPE_SUBTREE,
"(objectClass=group)")
AUTH_LDAP_GROUP_TYPE = GroupOfNamesType()
@@ -95,9 +95,6 @@ AUTH_LDAP_GROUP_TYPE = GroupOfNamesType()
# Define a group required to login.
AUTH_LDAP_REQUIRE_GROUP = "CN=NETBOX_USERS,DC=example,DC=com"
# Mirror LDAP group assignments.
AUTH_LDAP_MIRROR_GROUPS = True
# Define special user types using groups. Exercise great caution when assigning superuser status.
AUTH_LDAP_USER_FLAGS_BY_GROUP = {
"is_active": "cn=active,ou=groups,dc=example,dc=com",
@@ -116,21 +113,3 @@ AUTH_LDAP_GROUP_CACHE_TIMEOUT = 3600
* `is_active` - All users must be mapped to at least this group to enable authentication. Without this, users cannot log in.
* `is_staff` - Users mapped to this group are enabled for access to the administration tools; this is the equivalent of checking the "staff status" box on a manually created user. This doesn't grant any specific permissions.
* `is_superuser` - Users mapped to this group will be granted superuser status. Superusers are implicitly granted all permissions.
# Troubleshooting LDAP
`supervisorctl restart netbox` restarts the Netbox service, and initiates any changes made to `ldap_config.py`. If there are syntax errors present, the NetBox process will not spawn an instance, and errors should be logged to `/var/log/supervisor/`.
For troubleshooting LDAP user/group queries, add the following lines to the start of `ldap_config.py` after `import ldap`.
```python
import logging, logging.handlers
logfile = "/opt/netbox/logs/django-ldap-debug.log"
my_logger = logging.getLogger('django_auth_ldap')
my_logger.setLevel(logging.DEBUG)
handler = logging.handlers.RotatingFileHandler(
logfile, maxBytes=1024 * 500, backupCount=5)
my_logger.addHandler(handler)
```
Ensure the file and path specified in logfile exist and are writable and executable by the application service account. Restart the netbox service and attempt to log into the site to trigger log entries to this file.

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@@ -1,38 +1,33 @@
# Migration
!!! warning
As of version 2.5, NetBox no longer supports Python 2. Python 3 is required to run any 2.5 release or later.
## Ubuntu
Remove the Python2 version of gunicorn:
Remove Python 2 packages
```no-highlight
# pip uninstall -y gunicorn
# apt-get remove --purge -y python-dev python-pip
```
Install Python3 and pip3, Python's package management tool:
Install Python 3 packages
```no-highlight
# apt-get update
# apt-get install -y python3 python3-dev python3-setuptools
# easy_install3 pip
# apt-get install -y python3 python3-dev python3-pip
```
Install the Python3 packages required by NetBox:
Install Python Packages
```no-highlight
# cd /opt/netbox
# pip3 install -r requirements.txt
```
Replace gunicorn with the Python3 version:
Gunicorn Update
```no-highlight
# pip uninstall gunicorn
# pip3 install gunicorn
```
If using LDAP authentication, install the `django-auth-ldap` package:
Re-install LDAP Module (optional if using LDAP for auth)
```no-highlight
# pip3 install django-auth-ldap
sudo pip3 install django-auth-ldap
```

82
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@@ -1,30 +1,52 @@
# Installation
This section of the documentation discusses installing and configuring the NetBox application. Begin by installing all system packages required by NetBox and its dependencies:
This section of the documentation discusses installing and configuring the NetBox application.
!!! note
Python 3 is strongly encouraged for new installations. Support for Python 2 will be discontinued in the near future. This documentation includes a guide on [migrating from Python 2 to Python 3](migrating-to-python3).
**Ubuntu**
Python 3:
```no-highlight
# apt-get install -y python3 python3-pip python3-dev build-essential libxml2-dev libxslt1-dev libffi-dev graphviz libpq-dev libssl-dev redis-server zlib1g-dev
# apt-get install -y python3 python3-dev python3-setuptools build-essential libxml2-dev libxslt1-dev libffi-dev graphviz libpq-dev libssl-dev zlib1g-dev
# easy_install3 pip
```
Python 2:
```no-highlight
# apt-get install -y python2.7 python-dev python-setuptools build-essential libxml2-dev libxslt1-dev libffi-dev graphviz libpq-dev libssl-dev zlib1g-dev
# easy_install pip
```
**CentOS**
Python 3:
```no-highlight
# yum install -y epel-release
# yum install -y gcc python36 python36-devel python36-setuptools libxml2-devel libxslt-devel libffi-devel graphviz openssl-devel redhat-rpm-config redis
# easy_install-3.6 pip
# ln -s /usr/bin/python36 /usr/bin/python3
# yum install -y gcc python34 python34-devel python34-setuptools libxml2-devel libxslt-devel libffi-devel graphviz openssl-devel redhat-rpm-config
# easy_install-3.4 pip
```
Python 2:
```no-highlight
# yum install -y epel-release
# yum install -y gcc python2 python-devel python-setuptools libxml2-devel libxslt-devel libffi-devel graphviz openssl-devel redhat-rpm-config
# easy_install pip
```
You may opt to install NetBox either from a numbered release or by cloning the master branch of its repository on GitHub.
## Option A: Download a Release
Download the [latest stable release](https://github.com/netbox-community/netbox/releases) from GitHub as a tarball or ZIP archive and extract it to your desired path. In this example, we'll use `/opt/netbox`.
Download the [latest stable release](https://github.com/digitalocean/netbox/releases) from GitHub as a tarball or ZIP archive and extract it to your desired path. In this example, we'll use `/opt/netbox`.
```no-highlight
# wget https://github.com/netbox-community/netbox/archive/vX.Y.Z.tar.gz
# wget https://github.com/digitalocean/netbox/archive/vX.Y.Z.tar.gz
# tar -xzf vX.Y.Z.tar.gz -C /opt
# cd /opt/
# ln -s netbox-X.Y.Z/ netbox
@@ -56,7 +78,7 @@ If `git` is not already installed, install it:
Next, clone the **master** branch of the NetBox GitHub repository into the current directory:
```no-highlight
# git clone -b master https://github.com/netbox-community/netbox.git .
# git clone -b master https://github.com/digitalocean/netbox.git .
Cloning into '.'...
remote: Counting objects: 1994, done.
remote: Compressing objects: 100% (150/150), done.
@@ -69,22 +91,32 @@ Checking connectivity... done.
!!! warning
Ensure that the media directory (`/opt/netbox/netbox/media/` in this example) and all its subdirectories are writable by the user account as which NetBox runs. If the NetBox process does not have permission to write to this directory, attempts to upload files (e.g. image attachments) will fail. (The appropriate user account will vary by platform.)
`# chown -R netbox:netbox /opt/netbox/netbox/media/`
```
# chown -R netbox:netbox /opt/netbox/netbox/media/
```
# Install Python Packages
## Install Python Packages
Install the required Python packages using pip. (If you encounter any compilation errors during this step, ensure that you've installed all of the system dependencies listed above.)
Python 3:
```no-highlight
# pip3 install -r requirements.txt
```
Python 2:
```no-highlight
# pip install -r requirements.txt
```
!!! note
If you encounter errors while installing the required packages, check that you're running a recent version of pip (v9.0.1 or higher) with the command `pip3 -V`.
If you encounter errors while installing the required packages, check that you're running a recent version of pip (v9.0.1 or higher) with the command `pip -V` or `pip3 -V`.
## NAPALM Automation (Optional)
### NAPALM Automation
NetBox supports integration with the [NAPALM automation](https://napalm-automation.net/) library. NAPALM allows NetBox to fetch live data from devices and return it to a requester via its REST API. Installation of NAPALM is optional. To enable it, install the `napalm` package using pip or pip3:
As of v2.1.0, NetBox supports integration with the [NAPALM automation](https://napalm-automation.net/) library. NAPALM allows NetBox to fetch live data from devices and return it to a requester via its REST API. Installation of NAPALM is optional. To enable it, install the `napalm` package using pip or pip3:
```no-highlight
# pip3 install napalm
@@ -140,23 +172,11 @@ You may use the script located at `netbox/generate_secret_key.py` to generate a
!!! note
In the case of a highly available installation with multiple web servers, `SECRET_KEY` must be identical among all servers in order to maintain a persistent user session state.
## Webhooks Configuration
If you have opted to enable the webhooks, set `WEBHOOKS_ENABLED = True` and define the relevant `REDIS` database parameters. Below is an example:
```python
WEBHOOKS_ENABLED = True
REDIS = {
'HOST': 'localhost',
'PORT': 6379,
'PASSWORD': '',
'DATABASE': 0,
'DEFAULT_TIMEOUT': 300,
}
```
# Run Database Migrations
!!! warning
The examples on the rest of this page call the `python3` executable. Replace this with `python2` or `python` if you're using Python 2.
Before NetBox can run, we need to install the database schema. This is done by running `python3 manage.py migrate` from the `netbox` directory (`/opt/netbox/netbox/` in our example):
```no-highlight
@@ -224,13 +244,13 @@ At this point, NetBox should be able to run. We can verify this by starting a de
Performing system checks...
System check identified no issues (0 silenced).
November 28, 2018 - 09:33:45
Django version 2.0.9, using settings 'netbox.settings'
June 17, 2016 - 16:17:36
Django version 1.9.7, using settings 'netbox.settings'
Starting development server at http://0.0.0.0:8000/
Quit the server with CONTROL-C.
```
Next, connect to the name or IP of the server (as defined in `ALLOWED_HOSTS`) on port 8000; for example, <http://127.0.0.1:8000/>. You should be greeted with the NetBox home page. Note that this built-in web service is for development and testing purposes only. **It is not suited for production use.**
Now if we navigate to the name or IP of the server (as defined in `ALLOWED_HOSTS`) we should be greeted with the NetBox home page. Note that this built-in web service is for development and testing purposes only. **It is not suited for production use.**
!!! warning
If the test service does not run, or you cannot reach the NetBox home page, something has gone wrong. Do not proceed with the rest of this guide until the installation has been corrected.

4
docs/installation/1-postgresql.md → docs/installation/postgresql.md
View File

@@ -1,7 +1,7 @@
NetBox requires a PostgreSQL database to store data. This can be hosted locally or on a remote server. (Please note that MySQL is not supported, as NetBox leverages PostgreSQL's built-in [network address types](https://www.postgresql.org/docs/current/static/datatype-net-types.html).)
!!! note
The installation instructions provided here have been tested to work on Ubuntu 18.04 and CentOS 7.5. The particular commands needed to install dependencies on other distributions may vary significantly. Unfortunately, this is outside the control of the NetBox maintainers. Please consult your distribution's documentation for assistance with any errors.
The installation instructions provided here have been tested to work on Ubuntu 16.04 and CentOS 7.4. The particular commands needed to install dependencies on other distributions may vary significantly. Unfortunately, this is outside the control of the NetBox maintainers. Please consult your distribution's documentation for assistance with any errors.
!!! warning
NetBox v2.2 and later requires PostgreSQL 9.4 or higher.
@@ -19,7 +19,7 @@ If a recent enough version of PostgreSQL is not available through your distribut
**CentOS**
CentOS 7.5 does not ship with a recent enough version of PostgreSQL, so it will need to be installed from an external repository. The instructions below show the installation of PostgreSQL 9.6.
CentOS 7.4 does not ship with a recent enough version of PostgreSQL, so it will need to be installed from an external repository. The instructions below show the installation of PostgreSQL 9.6.
```no-highlight
# yum install https://download.postgresql.org/pub/repos/yum/9.6/redhat/rhel-7-x86_64/pgdg-centos96-9.6-3.noarch.rpm

37
docs/installation/upgrading.md
View File

@@ -4,45 +4,33 @@ As with the initial installation, you can upgrade NetBox by either downloading t
## Option A: Download a Release
Download the [latest stable release](https://github.com/netbox-community/netbox/releases) from GitHub as a tarball or ZIP archive. Extract it to your desired path. In this example, we'll use `/opt/netbox`.
Download the [latest stable release](https://github.com/digitalocean/netbox/releases) from GitHub as a tarball or ZIP archive. Extract it to your desired path. In this example, we'll use `/opt/netbox`.
Download and extract the latest version:
```no-highlight
# wget https://github.com/netbox-community/netbox/archive/vX.Y.Z.tar.gz
# wget https://github.com/digitalocean/netbox/archive/vX.Y.Z.tar.gz
# tar -xzf vX.Y.Z.tar.gz -C /opt
# cd /opt/
# ln -sfn netbox-X.Y.Z/ netbox
# ln -sf netbox-X.Y.Z/ netbox
```
Copy the 'configuration.py' you created when first installing to the new version:
```no-highlight
# cp netbox-X.Y.Z/netbox/netbox/configuration.py netbox/netbox/netbox/configuration.py
```
Be sure to replicate your uploaded media as well. (The exact action necessary will depend on where you choose to store your media, but in general moving or copying the media directory will suffice.)
```no-highlight
# cp -pr netbox-X.Y.Z/netbox/media/ netbox/netbox/
```
Also make sure to copy over any reports that you've made. Note that if you made them in a separate directory (`/opt/netbox-reports` for example), then you will not need to copy them - the config file that you copied earlier will point to the correct location.
```no-highlight
# cp -r /opt/netbox-X.Y.X/netbox/reports /opt/netbox/netbox/reports/
# cp /opt/netbox-X.Y.Z/netbox/netbox/configuration.py /opt/netbox/netbox/netbox/configuration.py
```
If you followed the original installation guide to set up gunicorn, be sure to copy its configuration as well:
```no-highlight
# cp netbox-X.Y.Z/gunicorn_config.py netbox/gunicorn_config.py
# cp /opt/netbox-X.Y.Z/gunicorn_config.py /opt/netbox/gunicorn_config.py
```
Copy the LDAP configuration if using LDAP:
```no-highlight
# cp netbox-X.Y.Z/netbox/netbox/ldap_config.py netbox/netbox/netbox/ldap_config.py
# cp /opt/netbox-X.Y.Z/netbox/netbox/ldap_config.py /opt/netbox/netbox/netbox/ldap_config.py
```
## Option B: Clone the Git Repository (latest master release)
@@ -64,6 +52,13 @@ Once the new code is in place, run the upgrade script (which may need to be run
# ./upgrade.sh
```
!!! warning
The upgrade script will prefer Python3 and pip3 if both executables are available. To force it to use Python2 and pip, use the `-2` argument as below.
```no-highlight
# ./upgrade.sh -2
```
This script:
* Installs or upgrades any new required Python packages
@@ -85,9 +80,3 @@ Finally, restart the WSGI service to run the new code. If you followed this guid
```no-highlight
# sudo supervisorctl restart netbox
```
If using webhooks, also restart the Redis worker:
```no-highlight
# sudo supervisorctl restart netbox-rqworker
```

13
docs/installation/3-http-daemon.md → docs/installation/web-server.md
View File

@@ -1,7 +1,7 @@
We'll set up a simple WSGI front end using [gunicorn](http://gunicorn.org/) for the purposes of this guide. For web servers, we provide example configurations for both [nginx](https://www.nginx.com/resources/wiki/) and [Apache](http://httpd.apache.org/docs/2.4). (You are of course free to use whichever combination of HTTP and WSGI services you'd like.) We'll also use [supervisord](http://supervisord.org/) to enable service persistence.
!!! info
For the sake of brevity, only Ubuntu 18.04 instructions are provided here, but this sort of web server and WSGI configuration is not unique to NetBox. Please consult your distribution's documentation for assistance if needed.
For the sake of brevity, only Ubuntu 16.04 instructions are provided here, but this sort of web server and WSGI configuration is not unique to NetBox. Please consult your distribution's documentation for assistance if needed.
# Web Server Installation
@@ -56,7 +56,7 @@ To enable SSL, consider this guide on [securing nginx with Let's Encrypt](https:
## Option B: Apache
```no-highlight
# apt-get install -y apache2 libapache2-mod-wsgi-py3
# apt-get install -y apache2
```
Once Apache is installed, proceed with the following configuration (Be sure to modify the `ServerName` appropriately):
@@ -82,7 +82,6 @@ Once Apache is installed, proceed with the following configuration (Be sure to m
ProxyPass !
</Location>
RequestHeader set "X-Forwarded-Proto" expr=%{REQUEST_SCHEME}
ProxyPass / http://127.0.0.1:8001/
ProxyPassReverse / http://127.0.0.1:8001/
</VirtualHost>
@@ -93,7 +92,6 @@ Save the contents of the above example in `/etc/apache2/sites-available/netbox.c
```no-highlight
# a2enmod proxy
# a2enmod proxy_http
# a2enmod headers
# a2ensite netbox
# service apache2 restart
```
@@ -102,7 +100,7 @@ To enable SSL, consider this guide on [securing Apache with Let's Encrypt](https
# gunicorn Installation
Install gunicorn:
Install gunicorn using `pip3` (Python 3) or `pip` (Python 2):
```no-highlight
# pip3 install gunicorn
@@ -133,11 +131,6 @@ Save the following as `/etc/supervisor/conf.d/netbox.conf`. Update the `command`
command = gunicorn -c /opt/netbox/gunicorn_config.py netbox.wsgi
directory = /opt/netbox/netbox/
user = www-data
[program:netbox-rqworker]
command = python3 /opt/netbox/netbox/manage.py rqworker
directory = /opt/netbox/netbox/
user = www-data
```
Then, restart the supervisor service to detect and run the gunicorn service:

12
docs/additional-features/reports.md → docs/miscellaneous/reports.md
View File

@@ -32,7 +32,7 @@ class DeviceIPsReport(Report):
Within each report class, we'll create a number of test methods to execute our report's logic. In DeviceConnectionsReport, for instance, we want to ensure that every live device has a console connection, an out-of-band management connection, and two power connections.
```
from dcim.constants import CONNECTION_STATUS_PLANNED, DEVICE_STATUS_ACTIVE
from dcim.constants import CONNECTION_STATUS_PLANNED, STATUS_ACTIVE
from dcim.models import ConsolePort, Device, PowerPort
from extras.reports import Report
@@ -43,8 +43,8 @@ class DeviceConnectionsReport(Report):
def test_console_connection(self):
# Check that every console port for every active device has a connection defined.
for console_port in ConsolePort.objects.select_related('device').filter(device__status=DEVICE_STATUS_ACTIVE):
if console_port.connected_endpoint is None:
for console_port in ConsolePort.objects.select_related('device').filter(device__status=STATUS_ACTIVE):
if console_port.cs_port is None:
self.log_failure(
console_port.device,
"No console connection defined for {}".format(console_port.name)
@@ -60,10 +60,10 @@ class DeviceConnectionsReport(Report):
def test_power_connections(self):
# Check that every active device has at least two connected power supplies.
for device in Device.objects.filter(status=DEVICE_STATUS_ACTIVE):
for device in Device.objects.filter(status=STATUS_ACTIVE):
connected_ports = 0
for power_port in PowerPort.objects.filter(device=device):
if power_port.connected_endpoint is not None:
if power_port.power_outlet is not None:
connected_ports += 1
if power_port.connection_status == CONNECTION_STATUS_PLANNED:
self.log_warning(
@@ -128,4 +128,4 @@ Reports can be run on the CLI by invoking the management command:
python3 manage.py runreport <module>
```
where ``<module>`` is the name of the python file in the ``reports`` directory without the ``.py`` extension. One or more report modules may be specified.
One or more report modules may be specified.

6
docs/administration/netbox-shell.md → docs/miscellaneous/shell.md
View File

@@ -1,4 +1,4 @@
NetBox includes a Python shell within which objects can be directly queried, created, modified, and deleted. To enter the shell, run the following command:
NetBox includes a Python shell withing which objects can be directly queried, created, modified, and deleted. To enter the shell, run the following command:
```
./manage.py nbshell
@@ -9,7 +9,7 @@ This will launch a customized version of [the built-in Django shell](https://doc
```
$ ./manage.py nbshell
### NetBox interactive shell (jstretch-laptop)
### Python 3.5.2 | Django 2.0.8 | NetBox 2.4.3
### Python 2.7.6 | Django 1.11.3 | NetBox 2.1.0-dev
### lsmodels() will show available models. Use help(<model>) for more info.
```
@@ -86,7 +86,7 @@ The `count()` method can be appended to the queryset to return a count of object
982
```
Relationships with other models can be traversed by concatenating field names with a double-underscore. For example, the following will return all devices assigned to the tenant named "Pied Piper."
Relationships with other models can be traversed by concatenting field names with a double-underscore. For example, the following will return all devices assigned to the tenant named "Pied Piper."
```
>>> Device.objects.filter(tenant__name='Pied Piper')

80
mkdocs.yml
View File

@@ -1,57 +1,35 @@
site_name: NetBox
theme: readthedocs
repo_url: https://github.com/netbox-community/netbox
pages:
- Introduction: 'index.md'
- Installation:
- Installing NetBox: 'installation/index.md'
- 1. PostgreSQL: 'installation/1-postgresql.md'
- 2. NetBox: 'installation/2-netbox.md'
- 3. HTTP Daemon: 'installation/3-http-daemon.md'
- 4. LDAP (Optional): 'installation/4-ldap.md'
- Upgrading NetBox: 'installation/upgrading.md'
- Migrating to Python3: 'installation/migrating-to-python3.md'
- Configuration:
- Configuring NetBox: 'configuration/index.md'
- Required Settings: 'configuration/required-settings.md'
- Optional Settings: 'configuration/optional-settings.md'
- Core Functionality:
- IP Address Management: 'core-functionality/ipam.md'
- VLANs: 'core-functionality/vlans.md'
- Sites and Racks: 'core-functionality/sites-and-racks.md'
- Devices: 'core-functionality/devices.md'
- Virtual Machines: 'core-functionality/virtual-machines.md'
- Services: 'core-functionality/services.md'
- Circuits: 'core-functionality/circuits.md'
- Secrets: 'core-functionality/secrets.md'
- Tenancy: 'core-functionality/tenancy.md'
- Additional Features:
- Tags: 'additional-features/tags.md'
- Custom Fields: 'additional-features/custom-fields.md'
- Context Data: 'additional-features/context-data.md'
- Export Templates: 'additional-features/export-templates.md'
- Graphs: 'additional-features/graphs.md'
- Topology Maps: 'additional-features/topology-maps.md'
- Reports: 'additional-features/reports.md'
- Webhooks: 'additional-features/webhooks.md'
- Change Logging: 'additional-features/change-logging.md'
- Caching: 'additional-features/caching.md'
- Prometheus Metrics: 'additional-features/prometheus-metrics.md'
- Administration:
- Replicating NetBox: 'administration/replicating-netbox.md'
- NetBox Shell: 'administration/netbox-shell.md'
- API:
- Overview: 'api/overview.md'
- Authentication: 'api/authentication.md'
- Working with Secrets: 'api/working-with-secrets.md'
- Examples: 'api/examples.md'
- Development:
- Introduction: 'development/index.md'
- Style Guide: 'development/style-guide.md'
- Utility Views: 'development/utility-views.md'
- Extending Models: 'development/extending-models.md'
- Release Checklist: 'development/release-checklist.md'
- 'Introduction': 'index.md'
- 'Installation':
- 'PostgreSQL': 'installation/postgresql.md'
- 'NetBox': 'installation/netbox.md'
- 'Web Server': 'installation/web-server.md'
- 'LDAP (Optional)': 'installation/ldap.md'
- 'Upgrading': 'installation/upgrading.md'
- 'Migrating to Python3': 'installation/migrating-to-python3.md'
- 'Configuration':
- 'Mandatory Settings': 'configuration/mandatory-settings.md'
- 'Optional Settings': 'configuration/optional-settings.md'
- 'Data Model':
- 'Circuits': 'data-model/circuits.md'
- 'DCIM': 'data-model/dcim.md'
- 'IPAM': 'data-model/ipam.md'
- 'Secrets': 'data-model/secrets.md'
- 'Tenancy': 'data-model/tenancy.md'
- 'Virtualization': 'data-model/virtualization.md'
- 'Extras': 'data-model/extras.md'
- 'API':
- 'Overview': 'api/overview.md'
- 'Authentication': 'api/authentication.md'
- 'Working with Secrets': 'api/working-with-secrets.md'
- 'Examples': 'api/examples.md'
- 'Miscellaneous':
- 'Reports': 'miscellaneous/reports.md'
- 'Shell': 'miscellaneous/shell.md'
- 'Development':
- 'Utility Views': 'development/utility-views.md'
markdown_extensions:
- admonition:

54
netbox/circuits/api/nested_serializers.py
View File

@@ -1,54 +0,0 @@
from rest_framework import serializers
from circuits.models import Circuit, CircuitTermination, CircuitType, Provider
from utilities.api import WritableNestedSerializer
__all__ = [
'NestedCircuitSerializer',
'NestedCircuitTerminationSerializer',
'NestedCircuitTypeSerializer',
'NestedProviderSerializer',
]
#
# Providers
#
class NestedProviderSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='circuits-api:provider-detail')
circuit_count = serializers.IntegerField(read_only=True)
class Meta:
model = Provider
fields = ['id', 'url', 'name', 'slug', 'circuit_count']
#
# Circuits
#
class NestedCircuitTypeSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='circuits-api:circuittype-detail')
circuit_count = serializers.IntegerField(read_only=True)
class Meta:
model = CircuitType
fields = ['id', 'url', 'name', 'slug', 'circuit_count']
class NestedCircuitSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='circuits-api:circuit-detail')
class Meta:
model = Circuit
fields = ['id', 'url', 'cid']
class NestedCircuitTerminationSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='circuits-api:circuittermination-detail')
circuit = NestedCircuitSerializer()
class Meta:
model = CircuitTermination
fields = ['id', 'url', 'circuit', 'term_side']

111
netbox/circuits/api/serializers.py
View File

@@ -1,67 +1,122 @@
from __future__ import unicode_literals
from rest_framework import serializers
from taggit_serializer.serializers import TaggitSerializer, TagListSerializerField
from circuits.constants import CIRCUIT_STATUS_CHOICES
from circuits.models import Provider, Circuit, CircuitTermination, CircuitType
from dcim.api.nested_serializers import NestedCableSerializer, NestedSiteSerializer
from dcim.api.serializers import ConnectedEndpointSerializer
from dcim.api.serializers import NestedSiteSerializer, InterfaceSerializer
from extras.api.customfields import CustomFieldModelSerializer
from tenancy.api.nested_serializers import NestedTenantSerializer
from utilities.api import ChoiceField, ValidatedModelSerializer
from .nested_serializers import *
from tenancy.api.serializers import NestedTenantSerializer
from utilities.api import ChoiceFieldSerializer, ValidatedModelSerializer
#
# Providers
#
class ProviderSerializer(TaggitSerializer, CustomFieldModelSerializer):
tags = TagListSerializerField(required=False)
circuit_count = serializers.IntegerField(read_only=True)
class ProviderSerializer(CustomFieldModelSerializer):
class Meta:
model = Provider
fields = [
'id', 'name', 'slug', 'asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments', 'tags',
'custom_fields', 'created', 'last_updated', 'circuit_count',
'id', 'name', 'slug', 'asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments',
'custom_fields', 'created', 'last_updated',
]
class NestedProviderSerializer(serializers.ModelSerializer):
url = serializers.HyperlinkedIdentityField(view_name='circuits-api:provider-detail')
class Meta:
model = Provider
fields = ['id', 'url', 'name', 'slug']
class WritableProviderSerializer(CustomFieldModelSerializer):
class Meta:
model = Provider
fields = [
'id', 'name', 'slug', 'asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments',
'custom_fields', 'created', 'last_updated',
]
#
# Circuit types
#
class CircuitTypeSerializer(ValidatedModelSerializer):
class Meta:
model = CircuitType
fields = ['id', 'name', 'slug']
class NestedCircuitTypeSerializer(serializers.ModelSerializer):
url = serializers.HyperlinkedIdentityField(view_name='circuits-api:circuittype-detail')
class Meta:
model = CircuitType
fields = ['id', 'url', 'name', 'slug']
#
# Circuits
#
class CircuitTypeSerializer(ValidatedModelSerializer):
circuit_count = serializers.IntegerField(read_only=True)
class Meta:
model = CircuitType
fields = ['id', 'name', 'slug', 'circuit_count']
class CircuitSerializer(TaggitSerializer, CustomFieldModelSerializer):
class CircuitSerializer(CustomFieldModelSerializer):
provider = NestedProviderSerializer()
status = ChoiceField(choices=CIRCUIT_STATUS_CHOICES, required=False)
status = ChoiceFieldSerializer(choices=CIRCUIT_STATUS_CHOICES)
type = NestedCircuitTypeSerializer()
tenant = NestedTenantSerializer(required=False, allow_null=True)
tags = TagListSerializerField(required=False)
tenant = NestedTenantSerializer()
class Meta:
model = Circuit
fields = [
'id', 'cid', 'provider', 'type', 'status', 'tenant', 'install_date', 'commit_rate', 'description',
'comments', 'tags', 'custom_fields', 'created', 'last_updated',
'comments', 'custom_fields', 'created', 'last_updated',
]
class CircuitTerminationSerializer(ConnectedEndpointSerializer):
class NestedCircuitSerializer(serializers.ModelSerializer):
url = serializers.HyperlinkedIdentityField(view_name='circuits-api:circuit-detail')
class Meta:
model = Circuit
fields = ['id', 'url', 'cid']
class WritableCircuitSerializer(CustomFieldModelSerializer):
class Meta:
model = Circuit
fields = [
'id', 'cid', 'provider', 'type', 'status', 'tenant', 'install_date', 'commit_rate', 'description',
'comments', 'custom_fields', 'created', 'last_updated',
]
#
# Circuit Terminations
#
class CircuitTerminationSerializer(serializers.ModelSerializer):
circuit = NestedCircuitSerializer()
site = NestedSiteSerializer()
cable = NestedCableSerializer(read_only=True)
interface = InterfaceSerializer()
class Meta:
model = CircuitTermination
fields = [
'id', 'circuit', 'term_side', 'site', 'port_speed', 'upstream_speed', 'xconnect_id', 'pp_info',
'description', 'connected_endpoint_type', 'connected_endpoint', 'connection_status', 'cable',
'id', 'circuit', 'term_side', 'site', 'interface', 'port_speed', 'upstream_speed', 'xconnect_id', 'pp_info',
]
class WritableCircuitTerminationSerializer(ValidatedModelSerializer):
class Meta:
model = CircuitTermination
fields = [
'id', 'circuit', 'term_side', 'site', 'interface', 'port_speed', 'upstream_speed', 'xconnect_id', 'pp_info',
]

4
netbox/circuits/api/urls.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
from rest_framework import routers
from . import views
@@ -15,7 +17,7 @@ router = routers.DefaultRouter()
router.APIRootView = CircuitsRootView
# Field choices
router.register(r'_choices', views.CircuitsFieldChoicesViewSet, basename='field-choice')
router.register(r'_choices', views.CircuitsFieldChoicesViewSet, base_name='field-choice')
# Providers
router.register(r'providers', views.ProviderViewSet)

33
netbox/circuits/api/views.py
View File

@@ -1,6 +1,7 @@
from django.db.models import Count
from __future__ import unicode_literals
from django.shortcuts import get_object_or_404
from rest_framework.decorators import action
from rest_framework.decorators import detail_route
from rest_framework.response import Response
from circuits import filters
@@ -18,7 +19,6 @@ from . import serializers
class CircuitsFieldChoicesViewSet(FieldChoicesViewSet):
fields = (
(Circuit, ['status']),
(CircuitTermination, ['term_side']),
)
@@ -28,13 +28,12 @@ class CircuitsFieldChoicesViewSet(FieldChoicesViewSet):
#
class ProviderViewSet(CustomFieldModelViewSet):
queryset = Provider.objects.prefetch_related('tags').annotate(
circuit_count=Count('circuits')
)
queryset = Provider.objects.all()
serializer_class = serializers.ProviderSerializer
filterset_class = filters.ProviderFilter
write_serializer_class = serializers.WritableProviderSerializer
filter_class = filters.ProviderFilter
@action(detail=True)
@detail_route()
def graphs(self, request, pk=None):
"""
A convenience method for rendering graphs for a particular provider.
@@ -50,11 +49,9 @@ class ProviderViewSet(CustomFieldModelViewSet):
#
class CircuitTypeViewSet(ModelViewSet):
queryset = CircuitType.objects.annotate(
circuit_count=Count('circuits')
)
queryset = CircuitType.objects.all()
serializer_class = serializers.CircuitTypeSerializer
filterset_class = filters.CircuitTypeFilter
filter_class = filters.CircuitTypeFilter
#
@@ -62,9 +59,10 @@ class CircuitTypeViewSet(ModelViewSet):
#
class CircuitViewSet(CustomFieldModelViewSet):
queryset = Circuit.objects.select_related('type', 'tenant', 'provider').prefetch_related('tags')
queryset = Circuit.objects.select_related('type', 'tenant', 'provider')
serializer_class = serializers.CircuitSerializer
filterset_class = filters.CircuitFilter
write_serializer_class = serializers.WritableCircuitSerializer
filter_class = filters.CircuitFilter
#
@@ -72,8 +70,7 @@ class CircuitViewSet(CustomFieldModelViewSet):
#
class CircuitTerminationViewSet(ModelViewSet):
queryset = CircuitTermination.objects.select_related(
'circuit', 'site', 'connected_endpoint__device', 'cable'
)
queryset = CircuitTermination.objects.select_related('circuit', 'site', 'interface__device')
serializer_class = serializers.CircuitTerminationSerializer
filterset_class = filters.CircuitTerminationFilter
write_serializer_class = serializers.WritableCircuitTerminationSerializer
filter_class = filters.CircuitTerminationFilter

2
netbox/circuits/apps.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
from django.apps import AppConfig

2
netbox/circuits/constants.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
# Circuit statuses
CIRCUIT_STATUS_DEPROVISIONING = 0

54
netbox/circuits/filters.py
View File

@@ -1,35 +1,33 @@
from __future__ import unicode_literals
import django_filters
from django.db.models import Q
from dcim.models import Site
from extras.filters import CustomFieldFilterSet
from tenancy.filtersets import TenancyFilterSet
from utilities.filters import NameSlugSearchFilterSet, NumericInFilter, TagFilter
from tenancy.models import Tenant
from utilities.filters import NumericInFilter
from .constants import CIRCUIT_STATUS_CHOICES
from .models import Provider, Circuit, CircuitTermination, CircuitType
class ProviderFilter(CustomFieldFilterSet):
id__in = NumericInFilter(
field_name='id',
lookup_expr='in'
)
class ProviderFilter(CustomFieldFilterSet, django_filters.FilterSet):
id__in = NumericInFilter(name='id', lookup_expr='in')
q = django_filters.CharFilter(
method='search',
label='Search',
)
site_id = django_filters.ModelMultipleChoiceFilter(
field_name='circuits__terminations__site',
name='circuits__terminations__site',
queryset=Site.objects.all(),
label='Site',
)
site = django_filters.ModelMultipleChoiceFilter(
field_name='circuits__terminations__site__slug',
name='circuits__terminations__site__slug',
queryset=Site.objects.all(),
to_field_name='slug',
label='Site (slug)',
)
tag = TagFilter()
class Meta:
model = Provider
@@ -47,18 +45,15 @@ class ProviderFilter(CustomFieldFilterSet):
)
class CircuitTypeFilter(NameSlugSearchFilterSet):
class CircuitTypeFilter(django_filters.FilterSet):
class Meta:
model = CircuitType
fields = ['id', 'name', 'slug']
fields = ['name', 'slug']
class CircuitFilter(CustomFieldFilterSet, TenancyFilterSet):
id__in = NumericInFilter(
field_name='id',
lookup_expr='in'
)
class CircuitFilter(CustomFieldFilterSet, django_filters.FilterSet):
id__in = NumericInFilter(name='id', lookup_expr='in')
q = django_filters.CharFilter(
method='search',
label='Search',
@@ -68,7 +63,7 @@ class CircuitFilter(CustomFieldFilterSet, TenancyFilterSet):
label='Provider (ID)',
)
provider = django_filters.ModelMultipleChoiceFilter(
field_name='provider__slug',
name='provider__slug',
queryset=Provider.objects.all(),
to_field_name='slug',
label='Provider (slug)',
@@ -78,7 +73,7 @@ class CircuitFilter(CustomFieldFilterSet, TenancyFilterSet):
label='Circuit type (ID)',
)
type = django_filters.ModelMultipleChoiceFilter(
field_name='type__slug',
name='type__slug',
queryset=CircuitType.objects.all(),
to_field_name='slug',
label='Circuit type (slug)',
@@ -87,18 +82,27 @@ class CircuitFilter(CustomFieldFilterSet, TenancyFilterSet):
choices=CIRCUIT_STATUS_CHOICES,
null_value=None
)
tenant_id = django_filters.ModelMultipleChoiceFilter(
queryset=Tenant.objects.all(),
label='Tenant (ID)',
)
tenant = django_filters.ModelMultipleChoiceFilter(
name='tenant__slug',
queryset=Tenant.objects.all(),
to_field_name='slug',
label='Tenant (slug)',
)
site_id = django_filters.ModelMultipleChoiceFilter(
field_name='terminations__site',
name='terminations__site',
queryset=Site.objects.all(),
label='Site (ID)',
)
site = django_filters.ModelMultipleChoiceFilter(
field_name='terminations__site__slug',
name='terminations__site__slug',
queryset=Site.objects.all(),
to_field_name='slug',
label='Site (slug)',
)
tag = TagFilter()
class Meta:
model = Circuit
@@ -111,7 +115,6 @@ class CircuitFilter(CustomFieldFilterSet, TenancyFilterSet):
Q(cid__icontains=value) |
Q(terminations__xconnect_id__icontains=value) |
Q(terminations__pp_info__icontains=value) |
Q(terminations__description__icontains=value) |
Q(description__icontains=value) |
Q(comments__icontains=value)
).distinct()
@@ -131,7 +134,7 @@ class CircuitTerminationFilter(django_filters.FilterSet):
label='Site (ID)',
)
site = django_filters.ModelMultipleChoiceFilter(
field_name='site__slug',
name='site__slug',
queryset=Site.objects.all(),
to_field_name='slug',
label='Site (slug)',
@@ -147,6 +150,5 @@ class CircuitTerminationFilter(django_filters.FilterSet):
return queryset.filter(
Q(circuit__cid__icontains=value) |
Q(xconnect_id__icontains=value) |
Q(pp_info__icontains=value) |
Q(description__icontains=value)
Q(pp_info__icontains=value)
).distinct()

297
netbox/circuits/forms.py
View File

@@ -1,14 +1,15 @@
from django import forms
from taggit.forms import TagField
from __future__ import unicode_literals
from dcim.models import Site
from extras.forms import AddRemoveTagsForm, CustomFieldForm, CustomFieldBulkEditForm, CustomFieldFilterForm
from django import forms
from django.db.models import Count
from dcim.models import Site, Device, Interface, Rack
from extras.forms import CustomFieldForm, CustomFieldBulkEditForm, CustomFieldFilterForm
from tenancy.forms import TenancyForm
from tenancy.forms import TenancyFilterForm
from tenancy.models import Tenant
from utilities.forms import (
APISelect, APISelectMultiple, add_blank_choice, BootstrapMixin, CommentField, CSVChoiceField,
FilterChoiceField, SmallTextarea, SlugField, StaticSelect2, StaticSelect2Multiple
APISelect, add_blank_choice, BootstrapMixin, ChainedFieldsMixin, ChainedModelChoiceField, CommentField,
CSVChoiceField, FilterChoiceField, SmallTextarea, SlugField,
)
from .constants import CIRCUIT_STATUS_CHOICES
from .models import Circuit, CircuitTermination, CircuitType, Provider
@@ -21,22 +22,13 @@ from .models import Circuit, CircuitTermination, CircuitType, Provider
class ProviderForm(BootstrapMixin, CustomFieldForm):
slug = SlugField()
comments = CommentField()
tags = TagField(
required=False
)
class Meta:
model = Provider
fields = [
'name', 'slug', 'asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments', 'tags',
]
fields = ['name', 'slug', 'asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments']
widgets = {
'noc_contact': SmallTextarea(
attrs={'rows': 5}
),
'admin_contact': SmallTextarea(
attrs={'rows': 5}
),
'noc_contact': SmallTextarea(attrs={'rows': 5}),
'admin_contact': SmallTextarea(attrs={'rows': 5}),
}
help_texts = {
'name': "Full name of the provider",
@@ -61,62 +53,24 @@ class ProviderCSVForm(forms.ModelForm):
}
class ProviderBulkEditForm(BootstrapMixin, AddRemoveTagsForm, CustomFieldBulkEditForm):
pk = forms.ModelMultipleChoiceField(
queryset=Provider.objects.all(),
widget=forms.MultipleHiddenInput
)
asn = forms.IntegerField(
required=False,
label='ASN'
)
account = forms.CharField(
max_length=30,
required=False,
label='Account number'
)
portal_url = forms.URLField(
required=False,
label='Portal'
)
noc_contact = forms.CharField(
required=False,
widget=SmallTextarea,
label='NOC contact'
)
admin_contact = forms.CharField(
required=False,
widget=SmallTextarea,
label='Admin contact'
)
comments = CommentField(
widget=SmallTextarea()
)
class ProviderBulkEditForm(BootstrapMixin, CustomFieldBulkEditForm):
pk = forms.ModelMultipleChoiceField(queryset=Provider.objects.all(), widget=forms.MultipleHiddenInput)
asn = forms.IntegerField(required=False, label='ASN')
account = forms.CharField(max_length=30, required=False, label='Account number')
portal_url = forms.URLField(required=False, label='Portal')
noc_contact = forms.CharField(required=False, widget=SmallTextarea, label='NOC contact')
admin_contact = forms.CharField(required=False, widget=SmallTextarea, label='Admin contact')
comments = CommentField(widget=SmallTextarea)
class Meta:
nullable_fields = [
'asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments',
]
nullable_fields = ['asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments']
class ProviderFilterForm(BootstrapMixin, CustomFieldFilterForm):
model = Provider
q = forms.CharField(
required=False,
label='Search'
)
site = FilterChoiceField(
queryset=Site.objects.all(),
to_field_name='slug',
widget=APISelectMultiple(
api_url="/api/dcim/sites/",
value_field="slug",
)
)
asn = forms.IntegerField(
required=False,
label='ASN'
)
q = forms.CharField(required=False, label='Search')
site = FilterChoiceField(queryset=Site.objects.all(), to_field_name='slug')
asn = forms.IntegerField(required=False, label='ASN')
#
@@ -128,9 +82,7 @@ class CircuitTypeForm(BootstrapMixin, forms.ModelForm):
class Meta:
model = CircuitType
fields = [
'name', 'slug',
]
fields = ['name', 'slug']
class CircuitTypeCSVForm(forms.ModelForm):
@@ -150,31 +102,18 @@ class CircuitTypeCSVForm(forms.ModelForm):
class CircuitForm(BootstrapMixin, TenancyForm, CustomFieldForm):
comments = CommentField()
tags = TagField(
required=False
)
class Meta:
model = Circuit
fields = [
'cid', 'type', 'provider', 'status', 'install_date', 'commit_rate', 'description', 'tenant_group', 'tenant',
'comments', 'tags',
'comments',
]
help_texts = {
'cid': "Unique circuit ID",
'install_date': "Format: YYYY-MM-DD",
'commit_rate': "Committed rate",
}
widgets = {
'provider': APISelect(
api_url="/api/circuits/providers/"
),
'type': APISelect(
api_url="/api/circuits/circuit-types/"
),
'status': StaticSelect2(),
}
class CircuitCSVForm(forms.ModelForm):
@@ -216,109 +155,108 @@ class CircuitCSVForm(forms.ModelForm):
]
class CircuitBulkEditForm(BootstrapMixin, AddRemoveTagsForm, CustomFieldBulkEditForm):
pk = forms.ModelMultipleChoiceField(
queryset=Circuit.objects.all(),
widget=forms.MultipleHiddenInput
)
type = forms.ModelChoiceField(
queryset=CircuitType.objects.all(),
required=False,
widget=APISelect(
api_url="/api/circuits/circuit-types/"
)
)
provider = forms.ModelChoiceField(
queryset=Provider.objects.all(),
required=False,
widget=APISelect(
api_url="/api/circuits/providers/"
)
)
status = forms.ChoiceField(
choices=add_blank_choice(CIRCUIT_STATUS_CHOICES),
required=False,
initial='',
widget=StaticSelect2()
)
tenant = forms.ModelChoiceField(
queryset=Tenant.objects.all(),
required=False,
widget=APISelect(
api_url="/api/tenancy/tenants/"
)
)
commit_rate = forms.IntegerField(
required=False,
label='Commit rate (Kbps)'
)
description = forms.CharField(
max_length=100,
required=False
)
comments = CommentField(
widget=SmallTextarea
)
class CircuitBulkEditForm(BootstrapMixin, CustomFieldBulkEditForm):
pk = forms.ModelMultipleChoiceField(queryset=Circuit.objects.all(), widget=forms.MultipleHiddenInput)
type = forms.ModelChoiceField(queryset=CircuitType.objects.all(), required=False)
provider = forms.ModelChoiceField(queryset=Provider.objects.all(), required=False)
status = forms.ChoiceField(choices=add_blank_choice(CIRCUIT_STATUS_CHOICES), required=False, initial='')
tenant = forms.ModelChoiceField(queryset=Tenant.objects.all(), required=False)
commit_rate = forms.IntegerField(required=False, label='Commit rate (Kbps)')
description = forms.CharField(max_length=100, required=False)
comments = CommentField(widget=SmallTextarea)
class Meta:
nullable_fields = [
'tenant', 'commit_rate', 'description', 'comments',
]
nullable_fields = ['tenant', 'commit_rate', 'description', 'comments']
class CircuitFilterForm(BootstrapMixin, TenancyFilterForm, CustomFieldFilterForm):
def circuit_status_choices():
status_counts = {}
for status in Circuit.objects.values('status').annotate(count=Count('status')).order_by('status'):
status_counts[status['status']] = status['count']
return [(s[0], '{} ({})'.format(s[1], status_counts.get(s[0], 0))) for s in CIRCUIT_STATUS_CHOICES]
class CircuitFilterForm(BootstrapMixin, CustomFieldFilterForm):
model = Circuit
field_order = ['q', 'type', 'provider', 'status', 'site', 'tenant_group', 'tenant', 'commit_rate']
q = forms.CharField(
required=False,
label='Search'
)
q = forms.CharField(required=False, label='Search')
type = FilterChoiceField(
queryset=CircuitType.objects.all(),
to_field_name='slug',
widget=APISelectMultiple(
api_url="/api/circuits/circuit-types/",
value_field="slug",
)
queryset=CircuitType.objects.annotate(filter_count=Count('circuits')),
to_field_name='slug'
)
provider = FilterChoiceField(
queryset=Provider.objects.all(),
to_field_name='slug',
widget=APISelectMultiple(
api_url="/api/circuits/providers/",
value_field="slug",
)
queryset=Provider.objects.annotate(filter_count=Count('circuits')),
to_field_name='slug'
)
status = forms.MultipleChoiceField(
choices=CIRCUIT_STATUS_CHOICES,
required=False,
widget=StaticSelect2Multiple()
status = forms.MultipleChoiceField(choices=circuit_status_choices, required=False)
tenant = FilterChoiceField(
queryset=Tenant.objects.annotate(filter_count=Count('circuits')),
to_field_name='slug',
null_label='-- None --'
)
site = FilterChoiceField(
queryset=Site.objects.all(),
to_field_name='slug',
widget=APISelectMultiple(
api_url="/api/dcim/sites/",
value_field="slug",
)
)
commit_rate = forms.IntegerField(
required=False,
min_value=0,
label='Commit rate (Kbps)'
queryset=Site.objects.annotate(filter_count=Count('circuit_terminations')),
to_field_name='slug'
)
commit_rate = forms.IntegerField(required=False, min_value=0, label='Commit rate (Kbps)')
#
# Circuit terminations
#
class CircuitTerminationForm(BootstrapMixin, forms.ModelForm):
class CircuitTerminationForm(BootstrapMixin, ChainedFieldsMixin, forms.ModelForm):
site = forms.ModelChoiceField(
queryset=Site.objects.all(),
widget=forms.Select(
attrs={'filter-for': 'rack'}
)
)
rack = ChainedModelChoiceField(
queryset=Rack.objects.all(),
chains=(
('site', 'site'),
),
required=False,
label='Rack',
widget=APISelect(
api_url='/api/dcim/racks/?site_id={{site}}',
attrs={'filter-for': 'device', 'nullable': 'true'}
)
)
device = ChainedModelChoiceField(
queryset=Device.objects.all(),
chains=(
('site', 'site'),
('rack', 'rack'),
),
required=False,
label='Device',
widget=APISelect(
api_url='/api/dcim/devices/?site_id={{site}}&rack_id={{rack}}',
display_field='display_name',
attrs={'filter-for': 'interface'}
)
)
interface = ChainedModelChoiceField(
queryset=Interface.objects.connectable().select_related(
'circuit_termination', 'connected_as_a', 'connected_as_b'
),
chains=(
('device', 'device'),
),
required=False,
label='Interface',
widget=APISelect(
api_url='/api/dcim/interfaces/?device_id={{device}}&type=physical',
disabled_indicator='is_connected'
)
)
class Meta:
model = CircuitTermination
fields = [
'term_side', 'site', 'port_speed', 'upstream_speed', 'xconnect_id', 'pp_info', 'description',
'term_side', 'site', 'rack', 'device', 'interface', 'port_speed', 'upstream_speed', 'xconnect_id',
'pp_info',
]
help_texts = {
'port_speed': "Physical circuit speed",
@@ -327,7 +265,26 @@ class CircuitTerminationForm(BootstrapMixin, forms.ModelForm):
}
widgets = {
'term_side': forms.HiddenInput(),
'site': APISelect(
api_url="/api/dcim/sites/"
)
}
def __init__(self, *args, **kwargs):
# Initialize helper selectors
instance = kwargs.get('instance')
if instance and instance.interface is not None:
initial = kwargs.get('initial', {}).copy()
initial['rack'] = instance.interface.device.rack
initial['device'] = instance.interface.device
kwargs['initial'] = initial
super(CircuitTerminationForm, self).__init__(*args, **kwargs)
# Mark connected interfaces as disabled
self.fields['interface'].choices = []
for iface in self.fields['interface'].queryset:
self.fields['interface'].choices.append(
(iface.id, {
'label': iface.name,
'disabled': iface.is_connected and iface.pk != self.initial.get('interface'),
})
)

2
netbox/circuits/migrations/0001_initial.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.9.7 on 2016-06-22 18:21
from __future__ import unicode_literals
from django.db import migrations, models

94
netbox/circuits/migrations/0001_initial_squashed_0010_circuit_status.py
View File

@@ -1,94 +0,0 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.11.14 on 2018-07-31 02:25
import dcim.fields
from django.db import migrations, models
import django.db.models.deletion
class Migration(migrations.Migration):
replaces = [('circuits', '0001_initial'), ('circuits', '0002_auto_20160622_1821'), ('circuits', '0003_provider_32bit_asn_support'), ('circuits', '0004_circuit_add_tenant'), ('circuits', '0005_circuit_add_upstream_speed'), ('circuits', '0006_terminations'), ('circuits', '0007_circuit_add_description'), ('circuits', '0008_circuittermination_interface_protect_on_delete'), ('circuits', '0009_unicode_literals'), ('circuits', '0010_circuit_status')]
dependencies = [
('dcim', '0001_initial'),
('dcim', '0022_color_names_to_rgb'),
('tenancy', '0001_initial'),
]
operations = [
migrations.CreateModel(
name='Provider',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('created', models.DateField(auto_now_add=True)),
('last_updated', models.DateTimeField(auto_now=True)),
('name', models.CharField(max_length=50, unique=True)),
('slug', models.SlugField(unique=True)),
('asn', dcim.fields.ASNField(blank=True, null=True, verbose_name='ASN')),
('account', models.CharField(blank=True, max_length=30, verbose_name='Account number')),
('portal_url', models.URLField(blank=True, verbose_name='Portal')),
('noc_contact', models.TextField(blank=True, verbose_name='NOC contact')),
('admin_contact', models.TextField(blank=True, verbose_name='Admin contact')),
('comments', models.TextField(blank=True)),
],
options={
'ordering': ['name'],
},
),
migrations.CreateModel(
name='CircuitType',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('name', models.CharField(max_length=50, unique=True)),
('slug', models.SlugField(unique=True)),
],
options={
'ordering': ['name'],
},
),
migrations.CreateModel(
name='Circuit',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('created', models.DateField(auto_now_add=True)),
('last_updated', models.DateTimeField(auto_now=True)),
('cid', models.CharField(max_length=50, verbose_name='Circuit ID')),
('install_date', models.DateField(blank=True, null=True, verbose_name='Date installed')),
('commit_rate', models.PositiveIntegerField(blank=True, null=True, verbose_name='Commit rate (Kbps)')),
('comments', models.TextField(blank=True)),
('provider', models.ForeignKey(on_delete=django.db.models.deletion.PROTECT, related_name='circuits', to='circuits.Provider')),
('type', models.ForeignKey(on_delete=django.db.models.deletion.PROTECT, related_name='circuits', to='circuits.CircuitType')),
('tenant', models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.PROTECT, related_name='circuits', to='tenancy.Tenant')),
('description', models.CharField(blank=True, max_length=100)),
('status', models.PositiveSmallIntegerField(choices=[[2, 'Planned'], [3, 'Provisioning'], [1, 'Active'], [4, 'Offline'], [0, 'Deprovisioning'], [5, 'Decommissioned']], default=1))
],
options={
'ordering': ['provider', 'cid'],
},
),
migrations.AlterUniqueTogether(
name='circuit',
unique_together=set([('provider', 'cid')]),
),
migrations.CreateModel(
name='CircuitTermination',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('term_side', models.CharField(choices=[('A', 'A'), ('Z', 'Z')], max_length=1, verbose_name='Termination')),
('port_speed', models.PositiveIntegerField(verbose_name='Port speed (Kbps)')),
('upstream_speed', models.PositiveIntegerField(blank=True, help_text='Upstream speed, if different from port speed', null=True, verbose_name='Upstream speed (Kbps)')),
('xconnect_id', models.CharField(blank=True, max_length=50, verbose_name='Cross-connect ID')),
('pp_info', models.CharField(blank=True, max_length=100, verbose_name='Patch panel/port(s)')),
('circuit', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, related_name='terminations', to='circuits.Circuit')),
('interface', models.OneToOneField(blank=True, null=True, on_delete=django.db.models.deletion.PROTECT, related_name='circuit_termination', to='dcim.Interface')),
('site', models.ForeignKey(on_delete=django.db.models.deletion.PROTECT, related_name='circuit_terminations', to='dcim.Site')),
],
options={
'ordering': ['circuit', 'term_side'],
},
),
migrations.AlterUniqueTogether(
name='circuittermination',
unique_together=set([('circuit', 'term_side')]),
),
]

2
netbox/circuits/migrations/0002_auto_20160622_1821.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.9.7 on 2016-06-22 18:21
from __future__ import unicode_literals
from django.db import migrations, models
import django.db.models.deletion

2
netbox/circuits/migrations/0003_provider_32bit_asn_support.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.9.7 on 2016-07-13 19:24
from __future__ import unicode_literals
import dcim.fields
from django.db import migrations

2
netbox/circuits/migrations/0004_circuit_add_tenant.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.9.8 on 2016-07-26 21:59
from __future__ import unicode_literals
from django.db import migrations, models
import django.db.models.deletion

2
netbox/circuits/migrations/0005_circuit_add_upstream_speed.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.9.8 on 2016-08-08 20:24
from __future__ import unicode_literals
from django.db import migrations, models

2
netbox/circuits/migrations/0006_terminations.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.10 on 2016-12-13 16:30
from __future__ import unicode_literals
from django.db import migrations, models
import django.db.models.deletion

2
netbox/circuits/migrations/0007_circuit_add_description.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.10.4 on 2017-01-17 20:08
from __future__ import unicode_literals
from django.db import migrations, models

2
netbox/circuits/migrations/0008_circuittermination_interface_protect_on_delete.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.11 on 2017-04-19 17:17
from __future__ import unicode_literals
from django.db import migrations, models
import django.db.models.deletion

2
netbox/circuits/migrations/0009_unicode_literals.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.11 on 2017-05-24 15:34
from __future__ import unicode_literals
import dcim.fields
from django.db import migrations, models

2
netbox/circuits/migrations/0010_circuit_status.py
View File

@@ -1,5 +1,7 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.11.9 on 2018-02-06 18:48
from __future__ import unicode_literals
from django.db import migrations, models

25
netbox/circuits/migrations/0011_tags.py
View File

@@ -1,25 +0,0 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.11.12 on 2018-05-22 19:04
from django.db import migrations
import taggit.managers
class Migration(migrations.Migration):
dependencies = [
('taggit', '0002_auto_20150616_2121'),
('circuits', '0010_circuit_status'),
]
operations = [
migrations.AddField(
model_name='circuit',
name='tags',
field=taggit.managers.TaggableManager(help_text='A comma-separated list of tags.', through='taggit.TaggedItem', to='taggit.Tag', verbose_name='Tags'),
),
migrations.AddField(
model_name='provider',
name='tags',
field=taggit.managers.TaggableManager(help_text='A comma-separated list of tags.', through='taggit.TaggedItem', to='taggit.Tag', verbose_name='Tags'),
),
]

43
netbox/circuits/migrations/0012_change_logging.py
View File

@@ -1,43 +0,0 @@
# -*- coding: utf-8 -*-
# Generated by Django 1.11.12 on 2018-06-13 17:14
from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
('circuits', '0011_tags'),
]
operations = [
migrations.AddField(
model_name='circuittype',
name='created',
field=models.DateField(auto_now_add=True, null=True),
),
migrations.AddField(
model_name='circuittype',
name='last_updated',
field=models.DateTimeField(auto_now=True, null=True),
),
migrations.AlterField(
model_name='circuit',
name='created',
field=models.DateField(auto_now_add=True, null=True),
),
migrations.AlterField(
model_name='circuit',
name='last_updated',
field=models.DateTimeField(auto_now=True, null=True),
),
migrations.AlterField(
model_name='provider',
name='created',
field=models.DateField(auto_now_add=True, null=True),
),
migrations.AlterField(
model_name='provider',
name='last_updated',
field=models.DateTimeField(auto_now=True, null=True),
),
]

89
netbox/circuits/migrations/0013_cables.py
View File

@@ -1,89 +0,0 @@
import sys
from django.db import migrations, models
import django.db.models.deletion
from dcim.constants import CONNECTION_STATUS_CONNECTED
def circuit_terminations_to_cables(apps, schema_editor):
"""
Copy all existing CircuitTermination Interface associations as Cables
"""
ContentType = apps.get_model('contenttypes', 'ContentType')
CircuitTermination = apps.get_model('circuits', 'CircuitTermination')
Interface = apps.get_model('dcim', 'Interface')
Cable = apps.get_model('dcim', 'Cable')
# Load content types
circuittermination_type = ContentType.objects.get_for_model(CircuitTermination)
interface_type = ContentType.objects.get_for_model(Interface)
# Create a new Cable instance from each console connection
if 'test' not in sys.argv:
print("\n Adding circuit terminations... ", end='', flush=True)
for circuittermination in CircuitTermination.objects.filter(interface__isnull=False):
# Create the new Cable
cable = Cable.objects.create(
termination_a_type=circuittermination_type,
termination_a_id=circuittermination.id,
termination_b_type=interface_type,
termination_b_id=circuittermination.interface_id,
status=CONNECTION_STATUS_CONNECTED
)
# Cache the Cable on its two termination points
CircuitTermination.objects.filter(pk=circuittermination.pk).update(
cable=cable,
connected_endpoint=circuittermination.interface,
connection_status=CONNECTION_STATUS_CONNECTED
)
# Cache the connected Cable on the Interface
Interface.objects.filter(pk=circuittermination.interface_id).update(
cable=cable,
_connected_circuittermination=circuittermination,
connection_status=CONNECTION_STATUS_CONNECTED
)
cable_count = Cable.objects.filter(termination_a_type=circuittermination_type).count()
if 'test' not in sys.argv:
print("{} cables created".format(cable_count))
class Migration(migrations.Migration):
atomic = False
dependencies = [
('circuits', '0012_change_logging'),
('dcim', '0066_cables'),
]
operations = [
# Add new CircuitTermination fields
migrations.AddField(
model_name='circuittermination',
name='connected_endpoint',
field=models.OneToOneField(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, related_name='+', to='dcim.Interface'),
),
migrations.AddField(
model_name='circuittermination',
name='connection_status',
field=models.NullBooleanField(),
),
migrations.AddField(
model_name='circuittermination',
name='cable',
field=models.ForeignKey(blank=True, null=True, on_delete=django.db.models.deletion.SET_NULL, related_name='+', to='dcim.Cable'),
),
# Copy CircuitTermination connections to Interfaces as Cables
migrations.RunPython(circuit_terminations_to_cables),
# Remove interface field from CircuitTermination
migrations.RemoveField(
model_name='circuittermination',
name='interface',
),
]

18
netbox/circuits/migrations/0014_circuittermination_description.py
View File

@@ -1,18 +0,0 @@
# Generated by Django 2.1.3 on 2018-11-05 18:38
from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
('circuits', '0013_cables'),
]
operations = [
migrations.AddField(
model_name='circuittermination',
name='description',
field=models.CharField(blank=True, max_length=100),
),
]

25
netbox/circuits/migrations/0015_custom_tag_models.py
View File

@@ -1,25 +0,0 @@
# Generated by Django 2.1.4 on 2019-02-20 06:56
from django.db import migrations
import taggit.managers
class Migration(migrations.Migration):
dependencies = [
('circuits', '0014_circuittermination_description'),
('extras', '0019_tag_taggeditem'),
]
operations = [
migrations.AlterField(
model_name='circuit',
name='tags',
field=taggit.managers.TaggableManager(through='extras.TaggedItem', to='extras.Tag'),
),
migrations.AlterField(
model_name='provider',
name='tags',
field=taggit.managers.TaggableManager(through='extras.TaggedItem', to='extras.Tag'),
),
]

224
netbox/circuits/models.py
View File

@@ -1,61 +1,33 @@
from __future__ import unicode_literals
from django.contrib.contenttypes.fields import GenericRelation
from django.db import models
from django.urls import reverse
from taggit.managers import TaggableManager
from django.utils.encoding import python_2_unicode_compatible
from dcim.constants import CONNECTION_STATUS_CHOICES, STATUS_CLASSES
from dcim.constants import STATUS_CLASSES
from dcim.fields import ASNField
from dcim.models import CableTermination
from extras.models import CustomFieldModel, ObjectChange, TaggedItem
from utilities.models import ChangeLoggedModel
from utilities.utils import serialize_object
from extras.models import CustomFieldModel, CustomFieldValue
from tenancy.models import Tenant
from utilities.models import CreatedUpdatedModel
from .constants import CIRCUIT_STATUS_ACTIVE, CIRCUIT_STATUS_CHOICES, TERM_SIDE_CHOICES
class Provider(ChangeLoggedModel, CustomFieldModel):
@python_2_unicode_compatible
class Provider(CreatedUpdatedModel, CustomFieldModel):
"""
Each Circuit belongs to a Provider. This is usually a telecommunications company or similar organization. This model
stores information pertinent to the user's relationship with the Provider.
"""
name = models.CharField(
max_length=50,
unique=True
)
slug = models.SlugField(
unique=True
)
asn = ASNField(
blank=True,
null=True,
verbose_name='ASN'
)
account = models.CharField(
max_length=30,
blank=True,
verbose_name='Account number'
)
portal_url = models.URLField(
blank=True,
verbose_name='Portal'
)
noc_contact = models.TextField(
blank=True,
verbose_name='NOC contact'
)
admin_contact = models.TextField(
blank=True,
verbose_name='Admin contact'
)
comments = models.TextField(
blank=True
)
custom_field_values = GenericRelation(
to='extras.CustomFieldValue',
content_type_field='obj_type',
object_id_field='obj_id'
)
tags = TaggableManager(through=TaggedItem)
name = models.CharField(max_length=50, unique=True)
slug = models.SlugField(unique=True)
asn = ASNField(blank=True, null=True, verbose_name='ASN')
account = models.CharField(max_length=30, blank=True, verbose_name='Account number')
portal_url = models.URLField(blank=True, verbose_name='Portal')
noc_contact = models.TextField(blank=True, verbose_name='NOC contact')
admin_contact = models.TextField(blank=True, verbose_name='Admin contact')
comments = models.TextField(blank=True)
custom_field_values = GenericRelation(CustomFieldValue, content_type_field='obj_type', object_id_field='obj_id')
csv_headers = ['name', 'slug', 'asn', 'account', 'portal_url', 'noc_contact', 'admin_contact', 'comments']
@@ -81,18 +53,14 @@ class Provider(ChangeLoggedModel, CustomFieldModel):
)
class CircuitType(ChangeLoggedModel):
@python_2_unicode_compatible
class CircuitType(models.Model):
"""
Circuits can be organized by their functional role. For example, a user might wish to define CircuitTypes named
"Long Haul," "Metro," or "Out-of-Band".
"""
name = models.CharField(
max_length=50,
unique=True
)
slug = models.SlugField(
unique=True
)
name = models.CharField(max_length=50, unique=True)
slug = models.SlugField(unique=True)
csv_headers = ['name', 'slug']
@@ -112,60 +80,23 @@ class CircuitType(ChangeLoggedModel):
)
class Circuit(ChangeLoggedModel, CustomFieldModel):
@python_2_unicode_compatible
class Circuit(CreatedUpdatedModel, CustomFieldModel):
"""
A communications circuit connects two points. Each Circuit belongs to a Provider; Providers may have multiple
circuits. Each circuit is also assigned a CircuitType and a Site. Circuit port speed and commit rate are measured
in Kbps.
circuits. Each circuit is also assigned a CircuitType and a Site. A Circuit may be terminated to a specific device
interface, but this is not required. Circuit port speed and commit rate are measured in Kbps.
"""
cid = models.CharField(
max_length=50,
verbose_name='Circuit ID'
)
provider = models.ForeignKey(
to='circuits.Provider',
on_delete=models.PROTECT,
related_name='circuits'
)
type = models.ForeignKey(
to='CircuitType',
on_delete=models.PROTECT,
related_name='circuits'
)
status = models.PositiveSmallIntegerField(
choices=CIRCUIT_STATUS_CHOICES,
default=CIRCUIT_STATUS_ACTIVE
)
tenant = models.ForeignKey(
to='tenancy.Tenant',
on_delete=models.PROTECT,
related_name='circuits',
blank=True,
null=True
)
install_date = models.DateField(
blank=True,
null=True,
verbose_name='Date installed'
)
commit_rate = models.PositiveIntegerField(
blank=True,
null=True,
verbose_name='Commit rate (Kbps)')
description = models.CharField(
max_length=100,
blank=True
)
comments = models.TextField(
blank=True
)
custom_field_values = GenericRelation(
to='extras.CustomFieldValue',
content_type_field='obj_type',
object_id_field='obj_id'
)
tags = TaggableManager(through=TaggedItem)
cid = models.CharField(max_length=50, verbose_name='Circuit ID')
provider = models.ForeignKey('Provider', related_name='circuits', on_delete=models.PROTECT)
type = models.ForeignKey('CircuitType', related_name='circuits', on_delete=models.PROTECT)
status = models.PositiveSmallIntegerField(choices=CIRCUIT_STATUS_CHOICES, default=CIRCUIT_STATUS_ACTIVE)
tenant = models.ForeignKey(Tenant, related_name='circuits', blank=True, null=True, on_delete=models.PROTECT)
install_date = models.DateField(blank=True, null=True, verbose_name='Date installed')
commit_rate = models.PositiveIntegerField(blank=True, null=True, verbose_name='Commit rate (Kbps)')
description = models.CharField(max_length=100, blank=True)
comments = models.TextField(blank=True)
custom_field_values = GenericRelation(CustomFieldValue, content_type_field='obj_type', object_id_field='obj_id')
csv_headers = [
'cid', 'provider', 'type', 'status', 'tenant', 'install_date', 'commit_rate', 'description', 'comments',
@@ -176,7 +107,7 @@ class Circuit(ChangeLoggedModel, CustomFieldModel):
unique_together = ['provider', 'cid']
def __str__(self):
return self.cid
return '{} {}'.format(self.provider, self.cid)
def get_absolute_url(self):
return reverse('circuits:circuit', args=[self.pk])
@@ -212,85 +143,28 @@ class Circuit(ChangeLoggedModel, CustomFieldModel):
return self._get_termination('Z')
class CircuitTermination(CableTermination):
circuit = models.ForeignKey(
to='circuits.Circuit',
on_delete=models.CASCADE,
related_name='terminations'
)
term_side = models.CharField(
max_length=1,
choices=TERM_SIDE_CHOICES,
verbose_name='Termination'
)
site = models.ForeignKey(
to='dcim.Site',
on_delete=models.PROTECT,
related_name='circuit_terminations'
)
connected_endpoint = models.OneToOneField(
to='dcim.Interface',
on_delete=models.SET_NULL,
related_name='+',
blank=True,
null=True
)
connection_status = models.NullBooleanField(
choices=CONNECTION_STATUS_CHOICES,
blank=True
)
port_speed = models.PositiveIntegerField(
verbose_name='Port speed (Kbps)'
@python_2_unicode_compatible
class CircuitTermination(models.Model):
circuit = models.ForeignKey('Circuit', related_name='terminations', on_delete=models.CASCADE)
term_side = models.CharField(max_length=1, choices=TERM_SIDE_CHOICES, verbose_name='Termination')
site = models.ForeignKey('dcim.Site', related_name='circuit_terminations', on_delete=models.PROTECT)
interface = models.OneToOneField(
'dcim.Interface', related_name='circuit_termination', blank=True, null=True, on_delete=models.PROTECT
)
port_speed = models.PositiveIntegerField(verbose_name='Port speed (Kbps)')
upstream_speed = models.PositiveIntegerField(
blank=True,
null=True,
verbose_name='Upstream speed (Kbps)',
blank=True, null=True, verbose_name='Upstream speed (Kbps)',
help_text='Upstream speed, if different from port speed'
)
xconnect_id = models.CharField(
max_length=50,
blank=True,
verbose_name='Cross-connect ID'
)
pp_info = models.CharField(
max_length=100,
blank=True,
verbose_name='Patch panel/port(s)'
)
description = models.CharField(
max_length=100,
blank=True
)
xconnect_id = models.CharField(max_length=50, blank=True, verbose_name='Cross-connect ID')
pp_info = models.CharField(max_length=100, blank=True, verbose_name='Patch panel/port(s)')
class Meta:
ordering = ['circuit', 'term_side']
unique_together = ['circuit', 'term_side']
def __str__(self):
return 'Side {}'.format(self.get_term_side_display())
def log_change(self, user, request_id, action):
"""
Reference the parent circuit when recording the change.
"""
try:
related_object = self.circuit
except Circuit.DoesNotExist:
# Parent circuit has been deleted
related_object = None
ObjectChange(
user=user,
request_id=request_id,
changed_object=self,
related_object=related_object,
action=action,
object_data=serialize_object(self)
).save()
@property
def parent(self):
return self.circuit
return '{} (Side {})'.format(self.circuit, self.get_term_side_display())
def get_peer_termination(self):
peer_side = 'Z' if self.term_side == 'A' else 'A'

2
netbox/circuits/signals.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
from django.db.models.signals import post_delete, post_save
from django.dispatch import receiver
from django.utils import timezone

34
netbox/circuits/tables.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
import django_tables2 as tables
from django.utils.safestring import mark_safe
from django_tables2.utils import Accessor
@@ -7,11 +9,8 @@ from utilities.tables import BaseTable, ToggleColumn
from .models import Circuit, CircuitType, Provider
CIRCUITTYPE_ACTIONS = """
<a href="{% url 'circuits:circuittype_changelog' slug=record.slug %}" class="btn btn-default btn-xs" title="Changelog">
<i class="fa fa-history"></i>
</a>
{% if perms.circuit.change_circuittype %}
<a href="{% url 'circuits:circuittype_edit' slug=record.slug %}?return_url={{ request.path }}" class="btn btn-xs btn-warning"><i class="glyphicon glyphicon-pencil" aria-hidden="true"></i></a>
<a href="{% url 'circuits:circuittype_edit' slug=record.slug %}" class="btn btn-xs btn-warning"><i class="glyphicon glyphicon-pencil" aria-hidden="true"></i></a>
{% endif %}
"""
@@ -20,6 +19,21 @@ STATUS_LABEL = """
"""
class CircuitTerminationColumn(tables.Column):
def render(self, value):
if value.interface:
return mark_safe('<a href="{}" title="{}">{}</a>'.format(
value.interface.device.get_absolute_url(),
value.site,
value.interface.device
))
return mark_safe('<a href="{}">{}</a>'.format(
value.site.get_absolute_url(),
value.site
))
#
# Providers
#
@@ -50,7 +64,7 @@ class CircuitTypeTable(BaseTable):
name = tables.LinkColumn()
circuit_count = tables.Column(verbose_name='Circuits')
actions = tables.TemplateColumn(
template_code=CIRCUITTYPE_ACTIONS, attrs={'td': {'class': 'text-right noprint'}}, verbose_name=''
template_code=CIRCUITTYPE_ACTIONS, attrs={'td': {'class': 'text-right'}}, verbose_name=''
)
class Meta(BaseTable.Meta):
@@ -68,13 +82,9 @@ class CircuitTable(BaseTable):
provider = tables.LinkColumn('circuits:provider', args=[Accessor('provider.slug')])
status = tables.TemplateColumn(template_code=STATUS_LABEL, verbose_name='Status')
tenant = tables.TemplateColumn(template_code=COL_TENANT)
a_side = tables.Column(
verbose_name='A Side'
)
z_side = tables.Column(
verbose_name='Z Side'
)
termination_a = CircuitTerminationColumn(orderable=False, verbose_name='A Side')
termination_z = CircuitTerminationColumn(orderable=False, verbose_name='Z Side')
class Meta(BaseTable.Meta):
model = Circuit
fields = ('pk', 'cid', 'status', 'type', 'provider', 'tenant', 'a_side', 'z_side', 'description')
fields = ('pk', 'cid', 'status', 'type', 'provider', 'tenant', 'termination_a', 'termination_z', 'description')

103
netbox/circuits/tests/test_api.py
View File

@@ -1,19 +1,26 @@
from __future__ import unicode_literals
from django.contrib.auth.models import User
from django.urls import reverse
from rest_framework import status
from rest_framework.test import APITestCase
from circuits.constants import CIRCUIT_STATUS_ACTIVE, TERM_SIDE_A, TERM_SIDE_Z
from circuits.constants import TERM_SIDE_A, TERM_SIDE_Z
from circuits.models import Circuit, CircuitTermination, CircuitType, Provider
from dcim.models import Device, DeviceRole, DeviceType, Interface, Manufacturer, Site
from dcim.models import Site
from extras.constants import GRAPH_TYPE_PROVIDER
from extras.models import Graph
from utilities.testing import APITestCase
from users.models import Token
from utilities.tests import HttpStatusMixin
class ProviderTest(APITestCase):
class ProviderTest(HttpStatusMixin, APITestCase):
def setUp(self):
super().setUp()
user = User.objects.create(username='testuser', is_superuser=True)
token = Token.objects.create(user=user)
self.header = {'HTTP_AUTHORIZATION': 'Token {}'.format(token.key)}
self.provider1 = Provider.objects.create(name='Test Provider 1', slug='test-provider-1')
self.provider2 = Provider.objects.create(name='Test Provider 2', slug='test-provider-2')
@@ -54,16 +61,6 @@ class ProviderTest(APITestCase):
self.assertEqual(response.data['count'], 3)
def test_list_providers_brief(self):
url = reverse('circuits-api:provider-list')
response = self.client.get('{}?brief=1'.format(url), **self.header)
self.assertEqual(
sorted(response.data['results'][0]),
['circuit_count', 'id', 'name', 'slug', 'url']
)
def test_create_provider(self):
data = {
@@ -131,11 +128,13 @@ class ProviderTest(APITestCase):
self.assertEqual(Provider.objects.count(), 2)
class CircuitTypeTest(APITestCase):
class CircuitTypeTest(HttpStatusMixin, APITestCase):
def setUp(self):
super().setUp()
user = User.objects.create(username='testuser', is_superuser=True)
token = Token.objects.create(user=user)
self.header = {'HTTP_AUTHORIZATION': 'Token {}'.format(token.key)}
self.circuittype1 = CircuitType.objects.create(name='Test Circuit Type 1', slug='test-circuit-type-1')
self.circuittype2 = CircuitType.objects.create(name='Test Circuit Type 2', slug='test-circuit-type-2')
@@ -155,16 +154,6 @@ class CircuitTypeTest(APITestCase):
self.assertEqual(response.data['count'], 3)
def test_list_circuittypes_brief(self):
url = reverse('circuits-api:circuittype-list')
response = self.client.get('{}?brief=1'.format(url), **self.header)
self.assertEqual(
sorted(response.data['results'][0]),
['circuit_count', 'id', 'name', 'slug', 'url']
)
def test_create_circuittype(self):
data = {
@@ -206,11 +195,13 @@ class CircuitTypeTest(APITestCase):
self.assertEqual(CircuitType.objects.count(), 2)
class CircuitTest(APITestCase):
class CircuitTest(HttpStatusMixin, APITestCase):
def setUp(self):
super().setUp()
user = User.objects.create(username='testuser', is_superuser=True)
token = Token.objects.create(user=user)
self.header = {'HTTP_AUTHORIZATION': 'Token {}'.format(token.key)}
self.provider1 = Provider.objects.create(name='Test Provider 1', slug='test-provider-1')
self.provider2 = Provider.objects.create(name='Test Provider 2', slug='test-provider-2')
@@ -234,23 +225,12 @@ class CircuitTest(APITestCase):
self.assertEqual(response.data['count'], 3)
def test_list_circuits_brief(self):
url = reverse('circuits-api:circuit-list')
response = self.client.get('{}?brief=1'.format(url), **self.header)
self.assertEqual(
sorted(response.data['results'][0]),
['cid', 'id', 'url']
)
def test_create_circuit(self):
data = {
'cid': 'TEST0004',
'provider': self.provider1.pk,
'type': self.circuittype1.pk,
'status': CIRCUIT_STATUS_ACTIVE,
}
url = reverse('circuits-api:circuit-list')
@@ -270,19 +250,16 @@ class CircuitTest(APITestCase):
'cid': 'TEST0004',
'provider': self.provider1.pk,
'type': self.circuittype1.pk,
'status': CIRCUIT_STATUS_ACTIVE,
},
{
'cid': 'TEST0005',
'provider': self.provider1.pk,
'type': self.circuittype1.pk,
'status': CIRCUIT_STATUS_ACTIVE,
},
{
'cid': 'TEST0006',
'provider': self.provider1.pk,
'type': self.circuittype1.pk,
'status': CIRCUIT_STATUS_ACTIVE,
},
]
@@ -322,30 +299,29 @@ class CircuitTest(APITestCase):
self.assertEqual(Circuit.objects.count(), 2)
class CircuitTerminationTest(APITestCase):
class CircuitTerminationTest(HttpStatusMixin, APITestCase):
def setUp(self):
super().setUp()
user = User.objects.create(username='testuser', is_superuser=True)
token = Token.objects.create(user=user)
self.header = {'HTTP_AUTHORIZATION': 'Token {}'.format(token.key)}
self.site1 = Site.objects.create(name='Test Site 1', slug='test-site-1')
self.site2 = Site.objects.create(name='Test Site 2', slug='test-site-2')
provider = Provider.objects.create(name='Test Provider', slug='test-provider')
circuittype = CircuitType.objects.create(name='Test Circuit Type', slug='test-circuit-type')
self.circuit1 = Circuit.objects.create(cid='TEST0001', provider=provider, type=circuittype)
self.circuit2 = Circuit.objects.create(cid='TEST0002', provider=provider, type=circuittype)
self.circuit3 = Circuit.objects.create(cid='TEST0003', provider=provider, type=circuittype)
self.site1 = Site.objects.create(name='Test Site 1', slug='test-site-1')
self.site2 = Site.objects.create(name='Test Site 2', slug='test-site-2')
self.circuittermination1 = CircuitTermination.objects.create(
circuit=self.circuit1, term_side=TERM_SIDE_A, site=self.site1, port_speed=1000000
)
self.circuittermination2 = CircuitTermination.objects.create(
circuit=self.circuit1, term_side=TERM_SIDE_Z, site=self.site2, port_speed=1000000
)
self.circuittermination3 = CircuitTermination.objects.create(
circuit=self.circuit2, term_side=TERM_SIDE_A, site=self.site1, port_speed=1000000
)
self.circuittermination4 = CircuitTermination.objects.create(
circuit=self.circuit2, term_side=TERM_SIDE_Z, site=self.site2, port_speed=1000000
self.circuittermination3 = CircuitTermination.objects.create(
circuit=self.circuit3, term_side=TERM_SIDE_A, site=self.site1, port_speed=1000000
)
def test_get_circuittermination(self):
@@ -360,14 +336,14 @@ class CircuitTerminationTest(APITestCase):
url = reverse('circuits-api:circuittermination-list')
response = self.client.get(url, **self.header)
self.assertEqual(response.data['count'], 4)
self.assertEqual(response.data['count'], 3)
def test_create_circuittermination(self):
data = {
'circuit': self.circuit3.pk,
'term_side': TERM_SIDE_A,
'site': self.site1.pk,
'circuit': self.circuit1.pk,
'term_side': TERM_SIDE_Z,
'site': self.site2.pk,
'port_speed': 1000000,
}
@@ -375,7 +351,7 @@ class CircuitTerminationTest(APITestCase):
response = self.client.post(url, data, format='json', **self.header)
self.assertHttpStatus(response, status.HTTP_201_CREATED)
self.assertEqual(CircuitTermination.objects.count(), 5)
self.assertEqual(CircuitTermination.objects.count(), 4)
circuittermination4 = CircuitTermination.objects.get(pk=response.data['id'])
self.assertEqual(circuittermination4.circuit_id, data['circuit'])
self.assertEqual(circuittermination4.term_side, data['term_side'])
@@ -384,23 +360,20 @@ class CircuitTerminationTest(APITestCase):
def test_update_circuittermination(self):
circuittermination5 = CircuitTermination.objects.create(
circuit=self.circuit3, term_side=TERM_SIDE_A, site=self.site1, port_speed=1000000
)
data = {
'circuit': self.circuit3.pk,
'circuit': self.circuit1.pk,
'term_side': TERM_SIDE_Z,
'site': self.site2.pk,
'port_speed': 1000000,
}
url = reverse('circuits-api:circuittermination-detail', kwargs={'pk': circuittermination5.pk})
url = reverse('circuits-api:circuittermination-detail', kwargs={'pk': self.circuittermination1.pk})
response = self.client.put(url, data, format='json', **self.header)
self.assertHttpStatus(response, status.HTTP_200_OK)
self.assertEqual(CircuitTermination.objects.count(), 5)
self.assertEqual(CircuitTermination.objects.count(), 3)
circuittermination1 = CircuitTermination.objects.get(pk=response.data['id'])
self.assertEqual(circuittermination1.circuit_id, data['circuit'])
self.assertEqual(circuittermination1.term_side, data['term_side'])
self.assertEqual(circuittermination1.site_id, data['site'])
self.assertEqual(circuittermination1.port_speed, data['port_speed'])
@@ -411,4 +384,4 @@ class CircuitTerminationTest(APITestCase):
response = self.client.delete(url, **self.header)
self.assertHttpStatus(response, status.HTTP_204_NO_CONTENT)
self.assertEqual(CircuitTermination.objects.count(), 3)
self.assertEqual(CircuitTermination.objects.count(), 2)

95
netbox/circuits/tests/test_views.py
View File

@@ -1,95 +0,0 @@
import urllib.parse
from django.test import Client, TestCase
from django.urls import reverse
from circuits.models import Circuit, CircuitType, Provider
from utilities.testing import create_test_user
class ProviderTestCase(TestCase):
def setUp(self):
user = create_test_user(permissions=['circuits.view_provider'])
self.client = Client()
self.client.force_login(user)
Provider.objects.bulk_create([
Provider(name='Provider 1', slug='provider-1', asn=65001),
Provider(name='Provider 2', slug='provider-2', asn=65002),
Provider(name='Provider 3', slug='provider-3', asn=65003),
])
def test_provider_list(self):
url = reverse('circuits:provider_list')
params = {
"q": "test",
}
response = self.client.get('{}?{}'.format(url, urllib.parse.urlencode(params)))
self.assertEqual(response.status_code, 200)
def test_provider(self):
provider = Provider.objects.first()
response = self.client.get(provider.get_absolute_url())
self.assertEqual(response.status_code, 200)
class CircuitTypeTestCase(TestCase):
def setUp(self):
user = create_test_user(permissions=['circuits.view_circuittype'])
self.client = Client()
self.client.force_login(user)
CircuitType.objects.bulk_create([
CircuitType(name='Circuit Type 1', slug='circuit-type-1'),
CircuitType(name='Circuit Type 2', slug='circuit-type-2'),
CircuitType(name='Circuit Type 3', slug='circuit-type-3'),
])
def test_circuittype_list(self):
url = reverse('circuits:circuittype_list')
response = self.client.get(url)
self.assertEqual(response.status_code, 200)
class CircuitTestCase(TestCase):
def setUp(self):
user = create_test_user(permissions=['circuits.view_circuit'])
self.client = Client()
self.client.force_login(user)
provider = Provider(name='Provider 1', slug='provider-1', asn=65001)
provider.save()
circuittype = CircuitType(name='Circuit Type 1', slug='circuit-type-1')
circuittype.save()
Circuit.objects.bulk_create([
Circuit(cid='Circuit 1', provider=provider, type=circuittype),
Circuit(cid='Circuit 2', provider=provider, type=circuittype),
Circuit(cid='Circuit 3', provider=provider, type=circuittype),
])
def test_circuit_list(self):
url = reverse('circuits:circuit_list')
params = {
"provider": Provider.objects.first().slug,
"type": CircuitType.objects.first().slug,
}
response = self.client.get('{}?{}'.format(url, urllib.parse.urlencode(params)))
self.assertEqual(response.status_code, 200)
def test_circuit(self):
circuit = Circuit.objects.first()
response = self.client.get(circuit.get_absolute_url())
self.assertEqual(response.status_code, 200)

63
netbox/circuits/urls.py
View File

@@ -1,50 +1,43 @@
from django.urls import path
from __future__ import unicode_literals
from django.conf.urls import url
from dcim.views import CableCreateView, CableTraceView
from extras.views import ObjectChangeLogView
from . import views
from .models import Circuit, CircuitTermination, CircuitType, Provider
app_name = 'circuits'
urlpatterns = [
# Providers
path(r'providers/', views.ProviderListView.as_view(), name='provider_list'),
path(r'providers/add/', views.ProviderCreateView.as_view(), name='provider_add'),
path(r'providers/import/', views.ProviderBulkImportView.as_view(), name='provider_import'),
path(r'providers/edit/', views.ProviderBulkEditView.as_view(), name='provider_bulk_edit'),
path(r'providers/delete/', views.ProviderBulkDeleteView.as_view(), name='provider_bulk_delete'),
path(r'providers/<slug:slug>/', views.ProviderView.as_view(), name='provider'),
path(r'providers/<slug:slug>/edit/', views.ProviderEditView.as_view(), name='provider_edit'),
path(r'providers/<slug:slug>/delete/', views.ProviderDeleteView.as_view(), name='provider_delete'),
path(r'providers/<slug:slug>/changelog/', ObjectChangeLogView.as_view(), name='provider_changelog', kwargs={'model': Provider}),
url(r'^providers/$', views.ProviderListView.as_view(), name='provider_list'),
url(r'^providers/add/$', views.ProviderCreateView.as_view(), name='provider_add'),
url(r'^providers/import/$', views.ProviderBulkImportView.as_view(), name='provider_import'),
url(r'^providers/edit/$', views.ProviderBulkEditView.as_view(), name='provider_bulk_edit'),
url(r'^providers/delete/$', views.ProviderBulkDeleteView.as_view(), name='provider_bulk_delete'),
url(r'^providers/(?P<slug>[\w-]+)/$', views.ProviderView.as_view(), name='provider'),
url(r'^providers/(?P<slug>[\w-]+)/edit/$', views.ProviderEditView.as_view(), name='provider_edit'),
url(r'^providers/(?P<slug>[\w-]+)/delete/$', views.ProviderDeleteView.as_view(), name='provider_delete'),
# Circuit types
path(r'circuit-types/', views.CircuitTypeListView.as_view(), name='circuittype_list'),
path(r'circuit-types/add/', views.CircuitTypeCreateView.as_view(), name='circuittype_add'),
path(r'circuit-types/import/', views.CircuitTypeBulkImportView.as_view(), name='circuittype_import'),
path(r'circuit-types/delete/', views.CircuitTypeBulkDeleteView.as_view(), name='circuittype_bulk_delete'),
path(r'circuit-types/<slug:slug>/edit/', views.CircuitTypeEditView.as_view(), name='circuittype_edit'),
path(r'circuit-types/<slug:slug>/changelog/', ObjectChangeLogView.as_view(), name='circuittype_changelog', kwargs={'model': CircuitType}),
url(r'^circuit-types/$', views.CircuitTypeListView.as_view(), name='circuittype_list'),
url(r'^circuit-types/add/$', views.CircuitTypeCreateView.as_view(), name='circuittype_add'),
url(r'^circuit-types/import/$', views.CircuitTypeBulkImportView.as_view(), name='circuittype_import'),
url(r'^circuit-types/delete/$', views.CircuitTypeBulkDeleteView.as_view(), name='circuittype_bulk_delete'),
url(r'^circuit-types/(?P<slug>[\w-]+)/edit/$', views.CircuitTypeEditView.as_view(), name='circuittype_edit'),
# Circuits
path(r'circuits/', views.CircuitListView.as_view(), name='circuit_list'),
path(r'circuits/add/', views.CircuitCreateView.as_view(), name='circuit_add'),
path(r'circuits/import/', views.CircuitBulkImportView.as_view(), name='circuit_import'),
path(r'circuits/edit/', views.CircuitBulkEditView.as_view(), name='circuit_bulk_edit'),
path(r'circuits/delete/', views.CircuitBulkDeleteView.as_view(), name='circuit_bulk_delete'),
path(r'circuits/<int:pk>/', views.CircuitView.as_view(), name='circuit'),
path(r'circuits/<int:pk>/edit/', views.CircuitEditView.as_view(), name='circuit_edit'),
path(r'circuits/<int:pk>/delete/', views.CircuitDeleteView.as_view(), name='circuit_delete'),
path(r'circuits/<int:pk>/changelog/', ObjectChangeLogView.as_view(), name='circuit_changelog', kwargs={'model': Circuit}),
path(r'circuits/<int:pk>/terminations/swap/', views.circuit_terminations_swap, name='circuit_terminations_swap'),
url(r'^circuits/$', views.CircuitListView.as_view(), name='circuit_list'),
url(r'^circuits/add/$', views.CircuitCreateView.as_view(), name='circuit_add'),
url(r'^circuits/import/$', views.CircuitBulkImportView.as_view(), name='circuit_import'),
url(r'^circuits/edit/$', views.CircuitBulkEditView.as_view(), name='circuit_bulk_edit'),
url(r'^circuits/delete/$', views.CircuitBulkDeleteView.as_view(), name='circuit_bulk_delete'),
url(r'^circuits/(?P<pk>\d+)/$', views.CircuitView.as_view(), name='circuit'),
url(r'^circuits/(?P<pk>\d+)/edit/$', views.CircuitEditView.as_view(), name='circuit_edit'),
url(r'^circuits/(?P<pk>\d+)/delete/$', views.CircuitDeleteView.as_view(), name='circuit_delete'),
url(r'^circuits/(?P<pk>\d+)/terminations/swap/$', views.circuit_terminations_swap, name='circuit_terminations_swap'),
# Circuit terminations
path(r'circuits/<int:circuit>/terminations/add/', views.CircuitTerminationCreateView.as_view(), name='circuittermination_add'),
path(r'circuit-terminations/<int:pk>/edit/', views.CircuitTerminationEditView.as_view(), name='circuittermination_edit'),
path(r'circuit-terminations/<int:pk>/delete/', views.CircuitTerminationDeleteView.as_view(), name='circuittermination_delete'),
path(r'circuit-terminations/<int:termination_a_id>/connect/<str:termination_b_type>/', CableCreateView.as_view(), name='circuittermination_connect', kwargs={'termination_a_type': CircuitTermination}),
path(r'circuit-terminations/<int:pk>/trace/', CableTraceView.as_view(), name='circuittermination_trace', kwargs={'model': CircuitTermination}),
url(r'^circuits/(?P<circuit>\d+)/terminations/add/$', views.CircuitTerminationCreateView.as_view(), name='circuittermination_add'),
url(r'^circuit-terminations/(?P<pk>\d+)/edit/$', views.CircuitTerminationEditView.as_view(), name='circuittermination_edit'),
url(r'^circuit-terminations/(?P<pk>\d+)/delete/$', views.CircuitTerminationDeleteView.as_view(), name='circuittermination_delete'),
]

41
netbox/circuits/views.py
View File

@@ -1,9 +1,12 @@
from __future__ import unicode_literals
from django.contrib import messages
from django.contrib.auth.decorators import permission_required
from django.contrib.auth.mixins import PermissionRequiredMixin
from django.db import transaction
from django.db.models import Count, OuterRef, Subquery
from django.db.models import Count
from django.shortcuts import get_object_or_404, redirect, render
from django.urls import reverse
from django.views.generic import View
from extras.models import Graph, GRAPH_TYPE_PROVIDER
@@ -20,8 +23,7 @@ from .models import Circuit, CircuitTermination, CircuitType, Provider
# Providers
#
class ProviderListView(PermissionRequiredMixin, ObjectListView):
permission_required = 'circuits.view_provider'
class ProviderListView(ObjectListView):
queryset = Provider.objects.annotate(count_circuits=Count('circuits'))
filter = filters.ProviderFilter
filter_form = forms.ProviderFilterForm
@@ -29,8 +31,7 @@ class ProviderListView(PermissionRequiredMixin, ObjectListView):
template_name = 'circuits/provider_list.html'
class ProviderView(PermissionRequiredMixin, View):
permission_required = 'circuits.view_provider'
class ProviderView(View):
def get(self, request, slug):
@@ -76,7 +77,7 @@ class ProviderBulkImportView(PermissionRequiredMixin, BulkImportView):
class ProviderBulkEditView(PermissionRequiredMixin, BulkEditView):
permission_required = 'circuits.change_provider'
queryset = Provider.objects.all()
cls = Provider
filter = filters.ProviderFilter
table = tables.ProviderTable
form = forms.ProviderBulkEditForm
@@ -85,7 +86,7 @@ class ProviderBulkEditView(PermissionRequiredMixin, BulkEditView):
class ProviderBulkDeleteView(PermissionRequiredMixin, BulkDeleteView):
permission_required = 'circuits.delete_provider'
queryset = Provider.objects.all()
cls = Provider
filter = filters.ProviderFilter
table = tables.ProviderTable
default_return_url = 'circuits:provider_list'
@@ -95,8 +96,7 @@ class ProviderBulkDeleteView(PermissionRequiredMixin, BulkDeleteView):
# Circuit Types
#
class CircuitTypeListView(PermissionRequiredMixin, ObjectListView):
permission_required = 'circuits.view_circuittype'
class CircuitTypeListView(ObjectListView):
queryset = CircuitType.objects.annotate(circuit_count=Count('circuits'))
table = tables.CircuitTypeTable
template_name = 'circuits/circuittype_list.html'
@@ -106,7 +106,9 @@ class CircuitTypeCreateView(PermissionRequiredMixin, ObjectEditView):
permission_required = 'circuits.add_circuittype'
model = CircuitType
model_form = forms.CircuitTypeForm
default_return_url = 'circuits:circuittype_list'
def get_return_url(self, request, obj):
return reverse('circuits:circuittype_list')
class CircuitTypeEditView(CircuitTypeCreateView):
@@ -122,6 +124,7 @@ class CircuitTypeBulkImportView(PermissionRequiredMixin, BulkImportView):
class CircuitTypeBulkDeleteView(PermissionRequiredMixin, BulkDeleteView):
permission_required = 'circuits.delete_circuittype'
cls = CircuitType
queryset = CircuitType.objects.annotate(circuit_count=Count('circuits'))
table = tables.CircuitTypeTable
default_return_url = 'circuits:circuittype_list'
@@ -131,16 +134,11 @@ class CircuitTypeBulkDeleteView(PermissionRequiredMixin, BulkDeleteView):
# Circuits
#
class CircuitListView(PermissionRequiredMixin, ObjectListView):
permission_required = 'circuits.view_circuit'
_terminations = CircuitTermination.objects.filter(circuit=OuterRef('pk'))
class CircuitListView(ObjectListView):
queryset = Circuit.objects.select_related(
'provider', 'type', 'tenant'
).prefetch_related(
'terminations__site'
).annotate(
a_side=Subquery(_terminations.filter(term_side='A').values('site__name')[:1]),
z_side=Subquery(_terminations.filter(term_side='Z').values('site__name')[:1]),
'terminations__site', 'terminations__interface__device'
)
filter = filters.CircuitFilter
filter_form = forms.CircuitFilterForm
@@ -148,19 +146,18 @@ class CircuitListView(PermissionRequiredMixin, ObjectListView):
template_name = 'circuits/circuit_list.html'
class CircuitView(PermissionRequiredMixin, View):
permission_required = 'circuits.view_circuit'
class CircuitView(View):
def get(self, request, pk):
circuit = get_object_or_404(Circuit.objects.select_related('provider', 'type', 'tenant__group'), pk=pk)
termination_a = CircuitTermination.objects.select_related(
'site__region', 'connected_endpoint__device'
'site__region', 'interface__device'
).filter(
circuit=circuit, term_side=TERM_SIDE_A
).first()
termination_z = CircuitTermination.objects.select_related(
'site__region', 'connected_endpoint__device'
'site__region', 'interface__device'
).filter(
circuit=circuit, term_side=TERM_SIDE_Z
).first()
@@ -199,6 +196,7 @@ class CircuitBulkImportView(PermissionRequiredMixin, BulkImportView):
class CircuitBulkEditView(PermissionRequiredMixin, BulkEditView):
permission_required = 'circuits.change_circuit'
cls = Circuit
queryset = Circuit.objects.select_related('provider', 'type', 'tenant').prefetch_related('terminations__site')
filter = filters.CircuitFilter
table = tables.CircuitTable
@@ -208,6 +206,7 @@ class CircuitBulkEditView(PermissionRequiredMixin, BulkEditView):
class CircuitBulkDeleteView(PermissionRequiredMixin, BulkDeleteView):
permission_required = 'circuits.delete_circuit'
cls = Circuit
queryset = Circuit.objects.select_related('provider', 'type', 'tenant').prefetch_related('terminations__site')
filter = filters.CircuitFilter
table = tables.CircuitTable

2
netbox/dcim/api/exceptions.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
from rest_framework.exceptions import APIException

283
netbox/dcim/api/nested_serializers.py
View File

@@ -1,283 +0,0 @@
from rest_framework import serializers
from dcim.constants import CONNECTION_STATUS_CHOICES
from dcim.models import (
Cable, ConsolePort, ConsoleServerPort, Device, DeviceBay, DeviceType, DeviceRole, FrontPort, FrontPortTemplate,
Interface, Manufacturer, Platform, PowerFeed, PowerOutlet, PowerPanel, PowerPort, Rack, RackGroup, RackRole,
RearPort, RearPortTemplate, Region, Site, VirtualChassis,
)
from utilities.api import ChoiceField, WritableNestedSerializer
__all__ = [
'NestedCableSerializer',
'NestedConsolePortSerializer',
'NestedConsoleServerPortSerializer',
'NestedDeviceBaySerializer',
'NestedDeviceRoleSerializer',
'NestedDeviceSerializer',
'NestedDeviceTypeSerializer',
'NestedFrontPortSerializer',
'NestedFrontPortTemplateSerializer',
'NestedInterfaceSerializer',
'NestedManufacturerSerializer',
'NestedPlatformSerializer',
'NestedPowerFeedSerializer',
'NestedPowerOutletSerializer',
'NestedPowerPanelSerializer',
'NestedPowerPortSerializer',
'NestedRackGroupSerializer',
'NestedRackRoleSerializer',
'NestedRackSerializer',
'NestedRearPortSerializer',
'NestedRearPortTemplateSerializer',
'NestedRegionSerializer',
'NestedSiteSerializer',
'NestedVirtualChassisSerializer',
]
#
# Regions/sites
#
class NestedRegionSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:region-detail')
site_count = serializers.IntegerField(read_only=True)
class Meta:
model = Region
fields = ['id', 'url', 'name', 'slug', 'site_count']
class NestedSiteSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:site-detail')
class Meta:
model = Site
fields = ['id', 'url', 'name', 'slug']
#
# Racks
#
class NestedRackGroupSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:rackgroup-detail')
rack_count = serializers.IntegerField(read_only=True)
class Meta:
model = RackGroup
fields = ['id', 'url', 'name', 'slug', 'rack_count']
class NestedRackRoleSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:rackrole-detail')
rack_count = serializers.IntegerField(read_only=True)
class Meta:
model = RackRole
fields = ['id', 'url', 'name', 'slug', 'rack_count']
class NestedRackSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:rack-detail')
device_count = serializers.IntegerField(read_only=True)
class Meta:
model = Rack
fields = ['id', 'url', 'name', 'display_name', 'device_count']
#
# Device types
#
class NestedManufacturerSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:manufacturer-detail')
devicetype_count = serializers.IntegerField(read_only=True)
class Meta:
model = Manufacturer
fields = ['id', 'url', 'name', 'slug', 'devicetype_count']
class NestedDeviceTypeSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:devicetype-detail')
manufacturer = NestedManufacturerSerializer(read_only=True)
device_count = serializers.IntegerField(read_only=True)
class Meta:
model = DeviceType
fields = ['id', 'url', 'manufacturer', 'model', 'slug', 'display_name', 'device_count']
class NestedRearPortTemplateSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:rearporttemplate-detail')
class Meta:
model = RearPortTemplate
fields = ['id', 'url', 'name']
class NestedFrontPortTemplateSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:frontporttemplate-detail')
class Meta:
model = FrontPortTemplate
fields = ['id', 'url', 'name']
#
# Devices
#
class NestedDeviceRoleSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:devicerole-detail')
device_count = serializers.IntegerField(read_only=True)
virtualmachine_count = serializers.IntegerField(read_only=True)
class Meta:
model = DeviceRole
fields = ['id', 'url', 'name', 'slug', 'device_count', 'virtualmachine_count']
class NestedPlatformSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:platform-detail')
device_count = serializers.IntegerField(read_only=True)
virtualmachine_count = serializers.IntegerField(read_only=True)
class Meta:
model = Platform
fields = ['id', 'url', 'name', 'slug', 'device_count', 'virtualmachine_count']
class NestedDeviceSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:device-detail')
class Meta:
model = Device
fields = ['id', 'url', 'name', 'display_name']
class NestedConsoleServerPortSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:consoleserverport-detail')
device = NestedDeviceSerializer(read_only=True)
connection_status = ChoiceField(choices=CONNECTION_STATUS_CHOICES, read_only=True)
class Meta:
model = ConsoleServerPort
fields = ['id', 'url', 'device', 'name', 'cable', 'connection_status']
class NestedConsolePortSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:consoleport-detail')
device = NestedDeviceSerializer(read_only=True)
connection_status = ChoiceField(choices=CONNECTION_STATUS_CHOICES, read_only=True)
class Meta:
model = ConsolePort
fields = ['id', 'url', 'device', 'name', 'cable', 'connection_status']
class NestedPowerOutletSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:poweroutlet-detail')
device = NestedDeviceSerializer(read_only=True)
connection_status = ChoiceField(choices=CONNECTION_STATUS_CHOICES, read_only=True)
class Meta:
model = PowerOutlet
fields = ['id', 'url', 'device', 'name', 'cable', 'connection_status']
class NestedPowerPortSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:powerport-detail')
device = NestedDeviceSerializer(read_only=True)
connection_status = ChoiceField(choices=CONNECTION_STATUS_CHOICES, read_only=True)
class Meta:
model = PowerPort
fields = ['id', 'url', 'device', 'name', 'cable', 'connection_status']
class NestedInterfaceSerializer(WritableNestedSerializer):
device = NestedDeviceSerializer(read_only=True)
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:interface-detail')
connection_status = ChoiceField(choices=CONNECTION_STATUS_CHOICES, read_only=True)
class Meta:
model = Interface
fields = ['id', 'url', 'device', 'name', 'cable', 'connection_status']
class NestedRearPortSerializer(WritableNestedSerializer):
device = NestedDeviceSerializer(read_only=True)
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:rearport-detail')
class Meta:
model = RearPort
fields = ['id', 'url', 'device', 'name', 'cable']
class NestedFrontPortSerializer(WritableNestedSerializer):
device = NestedDeviceSerializer(read_only=True)
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:frontport-detail')
class Meta:
model = FrontPort
fields = ['id', 'url', 'device', 'name', 'cable']
class NestedDeviceBaySerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:rearport-detail')
device = NestedDeviceSerializer(read_only=True)
class Meta:
model = DeviceBay
fields = ['id', 'url', 'device', 'name']
#
# Cables
#
class NestedCableSerializer(serializers.ModelSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:cable-detail')
class Meta:
model = Cable
fields = ['id', 'url', 'label']
#
# Virtual chassis
#
class NestedVirtualChassisSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:virtualchassis-detail')
master = NestedDeviceSerializer()
member_count = serializers.IntegerField(read_only=True)
class Meta:
model = VirtualChassis
fields = ['id', 'url', 'master', 'member_count']
#
# Power panels/feeds
#
class NestedPowerPanelSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:powerpanel-detail')
powerfeed_count = serializers.IntegerField(read_only=True)
class Meta:
model = PowerPanel
fields = ['id', 'url', 'name', 'powerfeed_count']
class NestedPowerFeedSerializer(WritableNestedSerializer):
url = serializers.HyperlinkedIdentityField(view_name='dcim-api:powerfeed-detail')
class Meta:
model = PowerFeed
fields = ['id', 'url', 'name']

1041
netbox/dcim/api/serializers.py
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23
netbox/dcim/api/urls.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
from rest_framework import routers
from . import views
@@ -15,7 +17,7 @@ router = routers.DefaultRouter()
router.APIRootView = DCIMRootView
# Field choices
router.register(r'_choices', views.DCIMFieldChoicesViewSet, basename='field-choice')
router.register(r'_choices', views.DCIMFieldChoicesViewSet, base_name='field-choice')
# Sites
router.register(r'regions', views.RegionViewSet)
@@ -37,8 +39,6 @@ router.register(r'console-server-port-templates', views.ConsoleServerPortTemplat
router.register(r'power-port-templates', views.PowerPortTemplateViewSet)
router.register(r'power-outlet-templates', views.PowerOutletTemplateViewSet)
router.register(r'interface-templates', views.InterfaceTemplateViewSet)
router.register(r'front-port-templates', views.FrontPortTemplateViewSet)
router.register(r'rear-port-templates', views.RearPortTemplateViewSet)
router.register(r'device-bay-templates', views.DeviceBayTemplateViewSet)
# Devices
@@ -52,28 +52,19 @@ router.register(r'console-server-ports', views.ConsoleServerPortViewSet)
router.register(r'power-ports', views.PowerPortViewSet)
router.register(r'power-outlets', views.PowerOutletViewSet)
router.register(r'interfaces', views.InterfaceViewSet)
router.register(r'front-ports', views.FrontPortViewSet)
router.register(r'rear-ports', views.RearPortViewSet)
router.register(r'device-bays', views.DeviceBayViewSet)
router.register(r'inventory-items', views.InventoryItemViewSet)
# Connections
router.register(r'console-connections', views.ConsoleConnectionViewSet, basename='consoleconnections')
router.register(r'power-connections', views.PowerConnectionViewSet, basename='powerconnections')
router.register(r'interface-connections', views.InterfaceConnectionViewSet, basename='interfaceconnections')
# Cables
router.register(r'cables', views.CableViewSet)
router.register(r'console-connections', views.ConsoleConnectionViewSet, base_name='consoleconnections')
router.register(r'power-connections', views.PowerConnectionViewSet, base_name='powerconnections')
router.register(r'interface-connections', views.InterfaceConnectionViewSet)
# Virtual chassis
router.register(r'virtual-chassis', views.VirtualChassisViewSet)
# Power
router.register(r'power-panels', views.PowerPanelViewSet)
router.register(r'power-feeds', views.PowerFeedViewSet)
# Miscellaneous
router.register(r'connected-device', views.ConnectedDeviceViewSet, basename='connected-device')
router.register(r'connected-device', views.ConnectedDeviceViewSet, base_name='connected-device')
app_name = 'dcim-api'
urlpatterns = router.urls

457
netbox/dcim/api/views.py
View File

@@ -1,35 +1,27 @@
from __future__ import unicode_literals
from collections import OrderedDict
from django.conf import settings
from django.db.models import Count, F
from django.http import HttpResponseForbidden
from django.db import transaction
from django.http import HttpResponseBadRequest, HttpResponseForbidden
from django.shortcuts import get_object_or_404
from drf_yasg import openapi
from drf_yasg.openapi import Parameter
from drf_yasg.utils import swagger_auto_schema
from rest_framework.decorators import action
from rest_framework.decorators import detail_route
from rest_framework.mixins import ListModelMixin
from rest_framework.response import Response
from rest_framework.viewsets import GenericViewSet, ViewSet
from circuits.models import Circuit
from dcim import filters
from dcim.models import (
Cable, ConsolePort, ConsolePortTemplate, ConsoleServerPort, ConsoleServerPortTemplate, Device, DeviceBay,
DeviceBayTemplate, DeviceRole, DeviceType, FrontPort, FrontPortTemplate, Interface, InterfaceTemplate,
Manufacturer, InventoryItem, Platform, PowerFeed, PowerOutlet, PowerOutletTemplate, PowerPanel, PowerPort,
PowerPortTemplate, Rack, RackGroup, RackReservation, RackRole, RearPort, RearPortTemplate, Region, Site,
VirtualChassis,
ConsolePort, ConsolePortTemplate, ConsoleServerPort, ConsoleServerPortTemplate, Device, DeviceBay,
DeviceBayTemplate, DeviceRole, DeviceType, Interface, InterfaceConnection, InterfaceTemplate, Manufacturer,
InventoryItem, Platform, PowerOutlet, PowerOutletTemplate, PowerPort, PowerPortTemplate, Rack, RackGroup,
RackReservation, RackRole, Region, Site, VirtualChassis,
)
from extras.api.serializers import RenderedGraphSerializer
from extras.api.views import CustomFieldModelViewSet
from extras.models import Graph, GRAPH_TYPE_INTERFACE, GRAPH_TYPE_SITE
from ipam.models import Prefix, VLAN
from utilities.api import (
get_serializer_for_model, IsAuthenticatedOrLoginNotRequired, FieldChoicesViewSet, ModelViewSet, ServiceUnavailable,
)
from utilities.utils import get_subquery
from virtualization.models import VirtualMachine
from utilities.api import IsAuthenticatedOrLoginNotRequired, FieldChoicesViewSet, ModelViewSet, ServiceUnavailable
from . import serializers
from .exceptions import MissingFilterException
@@ -40,68 +32,25 @@ from .exceptions import MissingFilterException
class DCIMFieldChoicesViewSet(FieldChoicesViewSet):
fields = (
(Cable, ['length_unit', 'status', 'termination_a_type', 'termination_b_type', 'type']),
(ConsolePort, ['connection_status']),
(Device, ['face', 'status']),
(DeviceType, ['subdevice_role']),
(FrontPort, ['type']),
(FrontPortTemplate, ['type']),
(Interface, ['type', 'mode']),
(InterfaceTemplate, ['type']),
(PowerOutlet, ['feed_leg']),
(PowerOutletTemplate, ['feed_leg']),
(ConsolePort, ['connection_status']),
(Interface, ['form_factor']),
(InterfaceConnection, ['connection_status']),
(InterfaceTemplate, ['form_factor']),
(PowerPort, ['connection_status']),
(Rack, ['outer_unit', 'status', 'type', 'width']),
(RearPort, ['type']),
(RearPortTemplate, ['type']),
(Site, ['status']),
(Rack, ['type', 'width']),
)
# Mixins
class CableTraceMixin(object):
@action(detail=True, url_path='trace')
def trace(self, request, pk):
"""
Trace a complete cable path and return each segment as a three-tuple of (termination, cable, termination).
"""
obj = get_object_or_404(self.queryset.model, pk=pk)
# Initialize the path array
path = []
for near_end, cable, far_end in obj.trace(follow_circuits=True):
# Serialize each object
serializer_a = get_serializer_for_model(near_end, prefix='Nested')
x = serializer_a(near_end, context={'request': request}).data
if cable is not None:
y = serializers.TracedCableSerializer(cable, context={'request': request}).data
else:
y = None
if far_end is not None:
serializer_b = get_serializer_for_model(far_end, prefix='Nested')
z = serializer_b(far_end, context={'request': request}).data
else:
z = None
path.append((x, y, z))
return Response(path)
#
# Regions
#
class RegionViewSet(ModelViewSet):
queryset = Region.objects.annotate(
site_count=Count('sites')
)
queryset = Region.objects.all()
serializer_class = serializers.RegionSerializer
filterset_class = filters.RegionFilter
write_serializer_class = serializers.WritableRegionSerializer
filter_class = filters.RegionFilter
#
@@ -109,22 +58,12 @@ class RegionViewSet(ModelViewSet):
#
class SiteViewSet(CustomFieldModelViewSet):
queryset = Site.objects.select_related(
'region', 'tenant'
).prefetch_related(
'tags'
).annotate(
device_count=get_subquery(Device, 'site'),
rack_count=get_subquery(Rack, 'site'),
prefix_count=get_subquery(Prefix, 'site'),
vlan_count=get_subquery(VLAN, 'site'),
circuit_count=get_subquery(Circuit, 'terminations__site'),
virtualmachine_count=get_subquery(VirtualMachine, 'cluster__site'),
)
queryset = Site.objects.select_related('region', 'tenant')
serializer_class = serializers.SiteSerializer
filterset_class = filters.SiteFilter
write_serializer_class = serializers.WritableSiteSerializer
filter_class = filters.SiteFilter
@action(detail=True)
@detail_route()
def graphs(self, request, pk=None):
"""
A convenience method for rendering graphs for a particular site.
@@ -140,11 +79,10 @@ class SiteViewSet(CustomFieldModelViewSet):
#
class RackGroupViewSet(ModelViewSet):
queryset = RackGroup.objects.select_related('site').annotate(
rack_count=Count('racks')
)
queryset = RackGroup.objects.select_related('site')
serializer_class = serializers.RackGroupSerializer
filterset_class = filters.RackGroupFilter
write_serializer_class = serializers.WritableRackGroupSerializer
filter_class = filters.RackGroupFilter
#
@@ -152,11 +90,9 @@ class RackGroupViewSet(ModelViewSet):
#
class RackRoleViewSet(ModelViewSet):
queryset = RackRole.objects.annotate(
rack_count=Count('racks')
)
queryset = RackRole.objects.all()
serializer_class = serializers.RackRoleSerializer
filterset_class = filters.RackRoleFilter
filter_class = filters.RackRoleFilter
#
@@ -164,18 +100,12 @@ class RackRoleViewSet(ModelViewSet):
#
class RackViewSet(CustomFieldModelViewSet):
queryset = Rack.objects.select_related(
'site', 'group__site', 'role', 'tenant'
).prefetch_related(
'tags'
).annotate(
device_count=get_subquery(Device, 'rack'),
powerfeed_count=get_subquery(PowerFeed, 'rack')
)
queryset = Rack.objects.select_related('site', 'group__site', 'tenant')
serializer_class = serializers.RackSerializer
filterset_class = filters.RackFilter
write_serializer_class = serializers.WritableRackSerializer
filter_class = filters.RackFilter
@action(detail=True)
@detail_route()
def units(self, request, pk=None):
"""
List rack units (by rack)
@@ -190,11 +120,6 @@ class RackViewSet(CustomFieldModelViewSet):
exclude_pk = None
elevation = rack.get_rack_units(face, exclude_pk)
# Enable filtering rack units by ID
q = request.GET.get('q', None)
if q:
elevation = [u for u in elevation if q in str(u['id'])]
page = self.paginate_queryset(elevation)
if page is not None:
rack_units = serializers.RackUnitSerializer(page, many=True, context={'request': request})
@@ -208,7 +133,8 @@ class RackViewSet(CustomFieldModelViewSet):
class RackReservationViewSet(ModelViewSet):
queryset = RackReservation.objects.select_related('rack', 'user', 'tenant')
serializer_class = serializers.RackReservationSerializer
filterset_class = filters.RackReservationFilter
write_serializer_class = serializers.WritableRackReservationSerializer
filter_class = filters.RackReservationFilter
# Assign user from request
def perform_create(self, serializer):
@@ -220,13 +146,9 @@ class RackReservationViewSet(ModelViewSet):
#
class ManufacturerViewSet(ModelViewSet):
queryset = Manufacturer.objects.annotate(
devicetype_count=get_subquery(DeviceType, 'manufacturer'),
inventoryitem_count=get_subquery(InventoryItem, 'manufacturer'),
platform_count=get_subquery(Platform, 'manufacturer')
)
queryset = Manufacturer.objects.all()
serializer_class = serializers.ManufacturerSerializer
filterset_class = filters.ManufacturerFilter
filter_class = filters.ManufacturerFilter
#
@@ -234,11 +156,10 @@ class ManufacturerViewSet(ModelViewSet):
#
class DeviceTypeViewSet(CustomFieldModelViewSet):
queryset = DeviceType.objects.select_related('manufacturer').prefetch_related('tags').annotate(
device_count=Count('instances')
)
queryset = DeviceType.objects.select_related('manufacturer')
serializer_class = serializers.DeviceTypeSerializer
filterset_class = filters.DeviceTypeFilter
write_serializer_class = serializers.WritableDeviceTypeSerializer
filter_class = filters.DeviceTypeFilter
#
@@ -248,49 +169,43 @@ class DeviceTypeViewSet(CustomFieldModelViewSet):
class ConsolePortTemplateViewSet(ModelViewSet):
queryset = ConsolePortTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.ConsolePortTemplateSerializer
filterset_class = filters.ConsolePortTemplateFilter
write_serializer_class = serializers.WritableConsolePortTemplateSerializer
filter_class = filters.ConsolePortTemplateFilter
class ConsoleServerPortTemplateViewSet(ModelViewSet):
queryset = ConsoleServerPortTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.ConsoleServerPortTemplateSerializer
filterset_class = filters.ConsoleServerPortTemplateFilter
write_serializer_class = serializers.WritableConsoleServerPortTemplateSerializer
filter_class = filters.ConsoleServerPortTemplateFilter
class PowerPortTemplateViewSet(ModelViewSet):
queryset = PowerPortTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.PowerPortTemplateSerializer
filterset_class = filters.PowerPortTemplateFilter
write_serializer_class = serializers.WritablePowerPortTemplateSerializer
filter_class = filters.PowerPortTemplateFilter
class PowerOutletTemplateViewSet(ModelViewSet):
queryset = PowerOutletTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.PowerOutletTemplateSerializer
filterset_class = filters.PowerOutletTemplateFilter
write_serializer_class = serializers.WritablePowerOutletTemplateSerializer
filter_class = filters.PowerOutletTemplateFilter
class InterfaceTemplateViewSet(ModelViewSet):
queryset = InterfaceTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.InterfaceTemplateSerializer
filterset_class = filters.InterfaceTemplateFilter
class FrontPortTemplateViewSet(ModelViewSet):
queryset = FrontPortTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.FrontPortTemplateSerializer
filterset_class = filters.FrontPortTemplateFilter
class RearPortTemplateViewSet(ModelViewSet):
queryset = RearPortTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.RearPortTemplateSerializer
filterset_class = filters.RearPortTemplateFilter
write_serializer_class = serializers.WritableInterfaceTemplateSerializer
filter_class = filters.InterfaceTemplateFilter
class DeviceBayTemplateViewSet(ModelViewSet):
queryset = DeviceBayTemplate.objects.select_related('device_type__manufacturer')
serializer_class = serializers.DeviceBayTemplateSerializer
filterset_class = filters.DeviceBayTemplateFilter
write_serializer_class = serializers.WritableDeviceBayTemplateSerializer
filter_class = filters.DeviceBayTemplateFilter
#
@@ -298,12 +213,9 @@ class DeviceBayTemplateViewSet(ModelViewSet):
#
class DeviceRoleViewSet(ModelViewSet):
queryset = DeviceRole.objects.annotate(
device_count=get_subquery(Device, 'device_role'),
virtualmachine_count=get_subquery(VirtualMachine, 'role')
)
queryset = DeviceRole.objects.all()
serializer_class = serializers.DeviceRoleSerializer
filterset_class = filters.DeviceRoleFilter
filter_class = filters.DeviceRoleFilter
#
@@ -311,12 +223,10 @@ class DeviceRoleViewSet(ModelViewSet):
#
class PlatformViewSet(ModelViewSet):
queryset = Platform.objects.annotate(
device_count=get_subquery(Device, 'platform'),
virtualmachine_count=get_subquery(VirtualMachine, 'platform')
)
queryset = Platform.objects.all()
serializer_class = serializers.PlatformSerializer
filterset_class = filters.PlatformFilter
write_serializer_class = serializers.WritablePlatformSerializer
filter_class = filters.PlatformFilter
#
@@ -328,31 +238,13 @@ class DeviceViewSet(CustomFieldModelViewSet):
'device_type__manufacturer', 'device_role', 'tenant', 'platform', 'site', 'rack', 'parent_bay',
'virtual_chassis__master',
).prefetch_related(
'primary_ip4__nat_outside', 'primary_ip6__nat_outside', 'tags',
'primary_ip4__nat_outside', 'primary_ip6__nat_outside',
)
filterset_class = filters.DeviceFilter
serializer_class = serializers.DeviceSerializer
write_serializer_class = serializers.WritableDeviceSerializer
filter_class = filters.DeviceFilter
def get_serializer_class(self):
"""
Select the specific serializer based on the request context.
If the `brief` query param equates to True, return the NestedDeviceSerializer
If the `exclude` query param includes `config_context` as a value, return the DeviceSerializer
Else, return the DeviceWithConfigContextSerializer
"""
request = self.get_serializer_context()['request']
if request.query_params.get('brief', False):
return serializers.NestedDeviceSerializer
elif 'config_context' in request.query_params.get('exclude', []):
return serializers.DeviceSerializer
return serializers.DeviceWithConfigContextSerializer
@action(detail=True, url_path='napalm')
@detail_route(url_path='napalm')
def napalm(self, request, pk):
"""
Execute a NAPALM method on a Device
@@ -370,9 +262,9 @@ class DeviceViewSet(CustomFieldModelViewSet):
# Check that NAPALM is installed
try:
import napalm
from napalm.base.exceptions import ModuleImportError
except ImportError:
raise ServiceUnavailable("NAPALM is not installed. Please see the documentation for instructions.")
from napalm.base.exceptions import ConnectAuthError, ModuleImportError
# Validate the configured driver
try:
@@ -386,41 +278,33 @@ class DeviceViewSet(CustomFieldModelViewSet):
if not request.user.has_perm('dcim.napalm_read'):
return HttpResponseForbidden()
# Connect to the device
# Validate requested NAPALM methods
napalm_methods = request.GET.getlist('method')
for method in napalm_methods:
if not hasattr(driver, method):
return HttpResponseBadRequest("Unknown NAPALM method: {}".format(method))
elif not method.startswith('get_'):
return HttpResponseBadRequest("Unsupported NAPALM method: {}".format(method))
# Connect to the device and execute the requested methods
# TODO: Improve error handling
response = OrderedDict([(m, None) for m in napalm_methods])
ip_address = str(device.primary_ip.address.ip)
optional_args = settings.NAPALM_ARGS.copy()
if device.platform.napalm_args is not None:
optional_args.update(device.platform.napalm_args)
d = driver(
hostname=ip_address,
username=settings.NAPALM_USERNAME,
password=settings.NAPALM_PASSWORD,
timeout=settings.NAPALM_TIMEOUT,
optional_args=optional_args
optional_args=settings.NAPALM_ARGS
)
try:
d.open()
for method in napalm_methods:
response[method] = getattr(d, method)()
except Exception as e:
raise ServiceUnavailable("Error connecting to the device at {}: {}".format(ip_address, e))
# Validate and execute each specified NAPALM method
for method in napalm_methods:
if not hasattr(driver, method):
response[method] = {'error': 'Unknown NAPALM method'}
continue
if not method.startswith('get_'):
response[method] = {'error': 'Only get_* NAPALM methods are supported'}
continue
try:
response[method] = getattr(d, method)()
except NotImplementedError:
response[method] = {'error': 'Method {} not implemented for NAPALM driver {}'.format(method, driver)}
except Exception as e:
response[method] = {'error': 'Method {} failed: {}'.format(method, e)}
d.close()
return Response(response)
@@ -428,58 +312,41 @@ class DeviceViewSet(CustomFieldModelViewSet):
# Device components
#
class ConsolePortViewSet(CableTraceMixin, ModelViewSet):
queryset = ConsolePort.objects.select_related(
'device', 'connected_endpoint__device', 'cable'
).prefetch_related(
'tags'
)
class ConsolePortViewSet(ModelViewSet):
queryset = ConsolePort.objects.select_related('device', 'cs_port__device')
serializer_class = serializers.ConsolePortSerializer
filterset_class = filters.ConsolePortFilter
write_serializer_class = serializers.WritableConsolePortSerializer
filter_class = filters.ConsolePortFilter
class ConsoleServerPortViewSet(CableTraceMixin, ModelViewSet):
queryset = ConsoleServerPort.objects.select_related(
'device', 'connected_endpoint__device', 'cable'
).prefetch_related(
'tags'
)
class ConsoleServerPortViewSet(ModelViewSet):
queryset = ConsoleServerPort.objects.select_related('device', 'connected_console__device')
serializer_class = serializers.ConsoleServerPortSerializer
filterset_class = filters.ConsoleServerPortFilter
write_serializer_class = serializers.WritableConsoleServerPortSerializer
filter_class = filters.ConsoleServerPortFilter
class PowerPortViewSet(CableTraceMixin, ModelViewSet):
queryset = PowerPort.objects.select_related(
'device', '_connected_poweroutlet__device', '_connected_powerfeed', 'cable'
).prefetch_related(
'tags'
)
class PowerPortViewSet(ModelViewSet):
queryset = PowerPort.objects.select_related('device', 'power_outlet__device')
serializer_class = serializers.PowerPortSerializer
filterset_class = filters.PowerPortFilter
write_serializer_class = serializers.WritablePowerPortSerializer
filter_class = filters.PowerPortFilter
class PowerOutletViewSet(CableTraceMixin, ModelViewSet):
queryset = PowerOutlet.objects.select_related(
'device', 'connected_endpoint__device', 'cable'
).prefetch_related(
'tags'
)
class PowerOutletViewSet(ModelViewSet):
queryset = PowerOutlet.objects.select_related('device', 'connected_port__device')
serializer_class = serializers.PowerOutletSerializer
filterset_class = filters.PowerOutletFilter
write_serializer_class = serializers.WritablePowerOutletSerializer
filter_class = filters.PowerOutletFilter
class InterfaceViewSet(CableTraceMixin, ModelViewSet):
queryset = Interface.objects.filter(
device__isnull=False
).select_related(
'device', '_connected_interface', '_connected_circuittermination', 'cable'
).prefetch_related(
'ip_addresses', 'tags'
)
class InterfaceViewSet(ModelViewSet):
queryset = Interface.objects.select_related('device')
serializer_class = serializers.InterfaceSerializer
filterset_class = filters.InterfaceFilter
write_serializer_class = serializers.WritableInterfaceSerializer
filter_class = filters.InterfaceFilter
@action(detail=True)
@detail_route()
def graphs(self, request, pk=None):
"""
A convenience method for rendering graphs for a particular interface.
@@ -490,36 +357,18 @@ class InterfaceViewSet(CableTraceMixin, ModelViewSet):
return Response(serializer.data)
class FrontPortViewSet(ModelViewSet):
queryset = FrontPort.objects.select_related(
'device__device_type__manufacturer', 'rear_port', 'cable'
).prefetch_related(
'tags'
)
serializer_class = serializers.FrontPortSerializer
filterset_class = filters.FrontPortFilter
class RearPortViewSet(ModelViewSet):
queryset = RearPort.objects.select_related(
'device__device_type__manufacturer', 'cable'
).prefetch_related(
'tags'
)
serializer_class = serializers.RearPortSerializer
filterset_class = filters.RearPortFilter
class DeviceBayViewSet(ModelViewSet):
queryset = DeviceBay.objects.select_related('installed_device').prefetch_related('tags')
queryset = DeviceBay.objects.select_related('installed_device')
serializer_class = serializers.DeviceBaySerializer
filterset_class = filters.DeviceBayFilter
write_serializer_class = serializers.WritableDeviceBaySerializer
filter_class = filters.DeviceBayFilter
class InventoryItemViewSet(ModelViewSet):
queryset = InventoryItem.objects.select_related('device', 'manufacturer').prefetch_related('tags')
queryset = InventoryItem.objects.select_related('device', 'manufacturer')
serializer_class = serializers.InventoryItemSerializer
filterset_class = filters.InventoryItemFilter
write_serializer_class = serializers.WritableInventoryItemSerializer
filter_class = filters.InventoryItemFilter
#
@@ -527,47 +376,22 @@ class InventoryItemViewSet(ModelViewSet):
#
class ConsoleConnectionViewSet(ListModelMixin, GenericViewSet):
queryset = ConsolePort.objects.select_related(
'device', 'connected_endpoint__device'
).filter(
connected_endpoint__isnull=False
)
queryset = ConsolePort.objects.select_related('device', 'cs_port__device').filter(cs_port__isnull=False)
serializer_class = serializers.ConsolePortSerializer
filterset_class = filters.ConsoleConnectionFilter
filter_class = filters.ConsoleConnectionFilter
class PowerConnectionViewSet(ListModelMixin, GenericViewSet):
queryset = PowerPort.objects.select_related(
'device', 'connected_endpoint__device'
).filter(
_connected_poweroutlet__isnull=False
)
queryset = PowerPort.objects.select_related('device', 'power_outlet__device').filter(power_outlet__isnull=False)
serializer_class = serializers.PowerPortSerializer
filterset_class = filters.PowerConnectionFilter
filter_class = filters.PowerConnectionFilter
class InterfaceConnectionViewSet(ListModelMixin, GenericViewSet):
queryset = Interface.objects.select_related(
'device', '_connected_interface__device'
).filter(
# Avoid duplicate connections by only selecting the lower PK in a connected pair
_connected_interface__isnull=False,
pk__lt=F('_connected_interface')
)
class InterfaceConnectionViewSet(ModelViewSet):
queryset = InterfaceConnection.objects.select_related('interface_a__device', 'interface_b__device')
serializer_class = serializers.InterfaceConnectionSerializer
filterset_class = filters.InterfaceConnectionFilter
#
# Cables
#
class CableViewSet(ModelViewSet):
queryset = Cable.objects.prefetch_related(
'termination_a', 'termination_b'
)
serializer_class = serializers.CableSerializer
filterset_class = filters.CableFilter
write_serializer_class = serializers.WritableInterfaceConnectionSerializer
filter_class = filters.InterfaceConnectionFilter
#
@@ -575,39 +399,9 @@ class CableViewSet(ModelViewSet):
#
class VirtualChassisViewSet(ModelViewSet):
queryset = VirtualChassis.objects.prefetch_related('tags').annotate(
member_count=Count('members')
)
queryset = VirtualChassis.objects.all()
serializer_class = serializers.VirtualChassisSerializer
filterset_class = filters.VirtualChassisFilter
#
# Power panels
#
class PowerPanelViewSet(ModelViewSet):
queryset = PowerPanel.objects.select_related(
'site', 'rack_group'
).annotate(
powerfeed_count=Count('powerfeeds')
)
serializer_class = serializers.PowerPanelSerializer
filterset_class = filters.PowerPanelFilter
#
# Power feeds
#
class PowerFeedViewSet(CustomFieldModelViewSet):
queryset = PowerFeed.objects.select_related(
'power_panel', 'rack'
).prefetch_related(
'tags'
)
serializer_class = serializers.PowerFeedSerializer
filterset_class = filters.PowerFeedFilter
write_serializer_class = serializers.WritableVirtualChassisSerializer
#
@@ -620,43 +414,24 @@ class ConnectedDeviceViewSet(ViewSet):
interface. This is useful in a situation where a device boots with no configuration, but can detect its neighbors
via a protocol such as LLDP. Two query parameters must be included in the request:
* `peer_device`: The name of the peer device
* `peer_interface`: The name of the peer interface
* `peer-device`: The name of the peer device
* `peer-interface`: The name of the peer interface
"""
permission_classes = [IsAuthenticatedOrLoginNotRequired]
_device_param = Parameter(
name='peer_device',
in_='query',
description='The name of the peer device',
required=True,
type=openapi.TYPE_STRING
)
_interface_param = Parameter(
name='peer_interface',
in_='query',
description='The name of the peer interface',
required=True,
type=openapi.TYPE_STRING
)
def get_view_name(self):
return "Connected Device Locator"
@swagger_auto_schema(
manual_parameters=[_device_param, _interface_param],
responses={'200': serializers.DeviceSerializer}
)
def list(self, request):
peer_device_name = request.query_params.get(self._device_param.name)
peer_interface_name = request.query_params.get(self._interface_param.name)
peer_device_name = request.query_params.get('peer-device')
peer_interface_name = request.query_params.get('peer-interface')
if not peer_device_name or not peer_interface_name:
raise MissingFilterException(detail='Request must include "peer_device" and "peer_interface" filters.')
raise MissingFilterException(detail='Request must include "peer-device" and "peer-interface" filters.')
# Determine local interface from peer interface's connection
peer_interface = get_object_or_404(Interface, device__name=peer_device_name, name=peer_interface_name)
local_interface = peer_interface._connected_interface
local_interface = peer_interface.connected_interface
if local_interface is None:
return Response()

3
netbox/dcim/apps.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
from django.apps import AppConfig
@@ -6,5 +8,4 @@ class DCIMConfig(AppConfig):
verbose_name = "DCIM"
def ready(self):
import dcim.signals

435
netbox/dcim/constants.py
View File

@@ -1,3 +1,5 @@
from __future__ import unicode_literals
# Rack types
RACK_TYPE_2POST = 100
@@ -29,26 +31,6 @@ RACK_FACE_CHOICES = [
[RACK_FACE_REAR, 'Rear'],
]
# Rack statuses
RACK_STATUS_RESERVED = 0
RACK_STATUS_AVAILABLE = 1
RACK_STATUS_PLANNED = 2
RACK_STATUS_ACTIVE = 3
RACK_STATUS_DEPRECATED = 4
RACK_STATUS_CHOICES = [
[RACK_STATUS_ACTIVE, 'Active'],
[RACK_STATUS_PLANNED, 'Planned'],
[RACK_STATUS_RESERVED, 'Reserved'],
[RACK_STATUS_AVAILABLE, 'Available'],
[RACK_STATUS_DEPRECATED, 'Deprecated'],
]
# Device rack position
DEVICE_POSITION_CHOICES = [
# Rack.u_height is limited to 100
(i, 'Unit {}'.format(i)) for i in range(1, 101)
]
# Parent/child device roles
SUBDEVICE_ROLE_PARENT = True
SUBDEVICE_ROLE_CHILD = False
@@ -66,204 +48,147 @@ IFACE_ORDERING_CHOICES = [
[IFACE_ORDERING_NAME, 'Name (alphabetically)']
]
# Interface types
# Interface form factors
# Virtual
IFACE_TYPE_VIRTUAL = 0
IFACE_TYPE_LAG = 200
IFACE_FF_VIRTUAL = 0
IFACE_FF_LAG = 200
# Ethernet
IFACE_TYPE_100ME_FIXED = 800
IFACE_TYPE_1GE_FIXED = 1000
IFACE_TYPE_1GE_GBIC = 1050
IFACE_TYPE_1GE_SFP = 1100
IFACE_TYPE_2GE_FIXED = 1120
IFACE_TYPE_5GE_FIXED = 1130
IFACE_TYPE_10GE_FIXED = 1150
IFACE_TYPE_10GE_CX4 = 1170
IFACE_TYPE_10GE_SFP_PLUS = 1200
IFACE_TYPE_10GE_XFP = 1300
IFACE_TYPE_10GE_XENPAK = 1310
IFACE_TYPE_10GE_X2 = 1320
IFACE_TYPE_25GE_SFP28 = 1350
IFACE_TYPE_40GE_QSFP_PLUS = 1400
IFACE_TYPE_50GE_QSFP28 = 1420
IFACE_TYPE_100GE_CFP = 1500
IFACE_TYPE_100GE_CFP2 = 1510
IFACE_TYPE_100GE_CFP4 = 1520
IFACE_TYPE_100GE_CPAK = 1550
IFACE_TYPE_100GE_QSFP28 = 1600
IFACE_TYPE_200GE_CFP2 = 1650
IFACE_TYPE_200GE_QSFP56 = 1700
IFACE_TYPE_400GE_QSFP_DD = 1750
IFACE_FF_100ME_FIXED = 800
IFACE_FF_1GE_FIXED = 1000
IFACE_FF_1GE_GBIC = 1050
IFACE_FF_1GE_SFP = 1100
IFACE_FF_10GE_FIXED = 1150
IFACE_FF_10GE_CX4 = 1170
IFACE_FF_10GE_SFP_PLUS = 1200
IFACE_FF_10GE_XFP = 1300
IFACE_FF_10GE_XENPAK = 1310
IFACE_FF_10GE_X2 = 1320
IFACE_FF_25GE_SFP28 = 1350
IFACE_FF_40GE_QSFP_PLUS = 1400
IFACE_FF_100GE_CFP = 1500
IFACE_FF_100GE_CFP2 = 1510
IFACE_FF_100GE_CFP4 = 1520
IFACE_FF_100GE_CPAK = 1550
IFACE_FF_100GE_QSFP28 = 1600
# Wireless
IFACE_TYPE_80211A = 2600
IFACE_TYPE_80211G = 2610
IFACE_TYPE_80211N = 2620
IFACE_TYPE_80211AC = 2630
IFACE_TYPE_80211AD = 2640
# Cellular
IFACE_TYPE_GSM = 2810
IFACE_TYPE_CDMA = 2820
IFACE_TYPE_LTE = 2830
# SONET
IFACE_TYPE_SONET_OC3 = 6100
IFACE_TYPE_SONET_OC12 = 6200
IFACE_TYPE_SONET_OC48 = 6300
IFACE_TYPE_SONET_OC192 = 6400
IFACE_TYPE_SONET_OC768 = 6500
IFACE_TYPE_SONET_OC1920 = 6600
IFACE_TYPE_SONET_OC3840 = 6700
IFACE_FF_80211A = 2600
IFACE_FF_80211G = 2610
IFACE_FF_80211N = 2620
IFACE_FF_80211AC = 2630
IFACE_FF_80211AD = 2640
# Fibrechannel
IFACE_TYPE_1GFC_SFP = 3010
IFACE_TYPE_2GFC_SFP = 3020
IFACE_TYPE_4GFC_SFP = 3040
IFACE_TYPE_8GFC_SFP_PLUS = 3080
IFACE_TYPE_16GFC_SFP_PLUS = 3160
IFACE_TYPE_32GFC_SFP28 = 3320
IFACE_TYPE_128GFC_QSFP28 = 3400
IFACE_FF_1GFC_SFP = 3010
IFACE_FF_2GFC_SFP = 3020
IFACE_FF_4GFC_SFP = 3040
IFACE_FF_8GFC_SFP_PLUS = 3080
IFACE_FF_16GFC_SFP_PLUS = 3160
# Serial
IFACE_TYPE_T1 = 4000
IFACE_TYPE_E1 = 4010
IFACE_TYPE_T3 = 4040
IFACE_TYPE_E3 = 4050
IFACE_FF_T1 = 4000
IFACE_FF_E1 = 4010
IFACE_FF_T3 = 4040
IFACE_FF_E3 = 4050
# Stacking
IFACE_TYPE_STACKWISE = 5000
IFACE_TYPE_STACKWISE_PLUS = 5050
IFACE_TYPE_FLEXSTACK = 5100
IFACE_TYPE_FLEXSTACK_PLUS = 5150
IFACE_TYPE_JUNIPER_VCP = 5200
IFACE_TYPE_SUMMITSTACK = 5300
IFACE_TYPE_SUMMITSTACK128 = 5310
IFACE_TYPE_SUMMITSTACK256 = 5320
IFACE_TYPE_SUMMITSTACK512 = 5330
IFACE_FF_STACKWISE = 5000
IFACE_FF_STACKWISE_PLUS = 5050
IFACE_FF_FLEXSTACK = 5100
IFACE_FF_FLEXSTACK_PLUS = 5150
IFACE_FF_JUNIPER_VCP = 5200
# Other
IFACE_TYPE_OTHER = 32767
IFACE_FF_OTHER = 32767
IFACE_TYPE_CHOICES = [
IFACE_FF_CHOICES = [
[
'Virtual interfaces',
[
[IFACE_TYPE_VIRTUAL, 'Virtual'],
[IFACE_TYPE_LAG, 'Link Aggregation Group (LAG)'],
[IFACE_FF_VIRTUAL, 'Virtual'],
[IFACE_FF_LAG, 'Link Aggregation Group (LAG)'],
],
],
[
'Ethernet (fixed)',
[
[IFACE_TYPE_100ME_FIXED, '100BASE-TX (10/100ME)'],
[IFACE_TYPE_1GE_FIXED, '1000BASE-T (1GE)'],
[IFACE_TYPE_2GE_FIXED, '2.5GBASE-T (2.5GE)'],
[IFACE_TYPE_5GE_FIXED, '5GBASE-T (5GE)'],
[IFACE_TYPE_10GE_FIXED, '10GBASE-T (10GE)'],
[IFACE_TYPE_10GE_CX4, '10GBASE-CX4 (10GE)'],
[IFACE_FF_100ME_FIXED, '100BASE-TX (10/100ME)'],
[IFACE_FF_1GE_FIXED, '1000BASE-T (1GE)'],
[IFACE_FF_10GE_FIXED, '10GBASE-T (10GE)'],
[IFACE_FF_10GE_CX4, '10GBASE-CX4 (10GE)'],
]
],
[
'Ethernet (modular)',
[
[IFACE_TYPE_1GE_GBIC, 'GBIC (1GE)'],
[IFACE_TYPE_1GE_SFP, 'SFP (1GE)'],
[IFACE_TYPE_10GE_SFP_PLUS, 'SFP+ (10GE)'],
[IFACE_TYPE_10GE_XFP, 'XFP (10GE)'],
[IFACE_TYPE_10GE_XENPAK, 'XENPAK (10GE)'],
[IFACE_TYPE_10GE_X2, 'X2 (10GE)'],
[IFACE_TYPE_25GE_SFP28, 'SFP28 (25GE)'],
[IFACE_TYPE_40GE_QSFP_PLUS, 'QSFP+ (40GE)'],
[IFACE_TYPE_50GE_QSFP28, 'QSFP28 (50GE)'],
[IFACE_TYPE_100GE_CFP, 'CFP (100GE)'],
[IFACE_TYPE_100GE_CFP2, 'CFP2 (100GE)'],
[IFACE_TYPE_200GE_CFP2, 'CFP2 (200GE)'],
[IFACE_TYPE_100GE_CFP4, 'CFP4 (100GE)'],
[IFACE_TYPE_100GE_CPAK, 'Cisco CPAK (100GE)'],
[IFACE_TYPE_100GE_QSFP28, 'QSFP28 (100GE)'],
[IFACE_TYPE_200GE_QSFP56, 'QSFP56 (200GE)'],
[IFACE_TYPE_400GE_QSFP_DD, 'QSFP-DD (400GE)'],
[IFACE_FF_1GE_GBIC, 'GBIC (1GE)'],
[IFACE_FF_1GE_SFP, 'SFP (1GE)'],
[IFACE_FF_10GE_SFP_PLUS, 'SFP+ (10GE)'],
[IFACE_FF_10GE_XFP, 'XFP (10GE)'],
[IFACE_FF_10GE_XENPAK, 'XENPAK (10GE)'],
[IFACE_FF_10GE_X2, 'X2 (10GE)'],
[IFACE_FF_25GE_SFP28, 'SFP28 (25GE)'],
[IFACE_FF_40GE_QSFP_PLUS, 'QSFP+ (40GE)'],
[IFACE_FF_100GE_CFP, 'CFP (100GE)'],
[IFACE_FF_100GE_CFP2, 'CFP2 (100GE)'],
[IFACE_FF_100GE_CFP4, 'CFP4 (100GE)'],
[IFACE_FF_100GE_CPAK, 'Cisco CPAK (100GE)'],
[IFACE_FF_100GE_QSFP28, 'QSFP28 (100GE)'],
]
],
[
'Wireless',
[
[IFACE_TYPE_80211A, 'IEEE 802.11a'],
[IFACE_TYPE_80211G, 'IEEE 802.11b/g'],
[IFACE_TYPE_80211N, 'IEEE 802.11n'],
[IFACE_TYPE_80211AC, 'IEEE 802.11ac'],
[IFACE_TYPE_80211AD, 'IEEE 802.11ad'],
]
],
[
'Cellular',
[
[IFACE_TYPE_GSM, 'GSM'],
[IFACE_TYPE_CDMA, 'CDMA'],
[IFACE_TYPE_LTE, 'LTE'],
]
],
[
'SONET',
[
[IFACE_TYPE_SONET_OC3, 'OC-3/STM-1'],
[IFACE_TYPE_SONET_OC12, 'OC-12/STM-4'],
[IFACE_TYPE_SONET_OC48, 'OC-48/STM-16'],
[IFACE_TYPE_SONET_OC192, 'OC-192/STM-64'],
[IFACE_TYPE_SONET_OC768, 'OC-768/STM-256'],
[IFACE_TYPE_SONET_OC1920, 'OC-1920/STM-640'],
[IFACE_TYPE_SONET_OC3840, 'OC-3840/STM-1234'],
[IFACE_FF_80211A, 'IEEE 802.11a'],
[IFACE_FF_80211G, 'IEEE 802.11b/g'],
[IFACE_FF_80211N, 'IEEE 802.11n'],
[IFACE_FF_80211AC, 'IEEE 802.11ac'],
[IFACE_FF_80211AD, 'IEEE 802.11ad'],
]
],
[
'FibreChannel',
[
[IFACE_TYPE_1GFC_SFP, 'SFP (1GFC)'],
[IFACE_TYPE_2GFC_SFP, 'SFP (2GFC)'],
[IFACE_TYPE_4GFC_SFP, 'SFP (4GFC)'],
[IFACE_TYPE_8GFC_SFP_PLUS, 'SFP+ (8GFC)'],
[IFACE_TYPE_16GFC_SFP_PLUS, 'SFP+ (16GFC)'],
[IFACE_TYPE_32GFC_SFP28, 'SFP28 (32GFC)'],
[IFACE_TYPE_128GFC_QSFP28, 'QSFP28 (128GFC)'],
[IFACE_FF_1GFC_SFP, 'SFP (1GFC)'],
[IFACE_FF_2GFC_SFP, 'SFP (2GFC)'],
[IFACE_FF_4GFC_SFP, 'SFP (4GFC)'],
[IFACE_FF_8GFC_SFP_PLUS, 'SFP+ (8GFC)'],
[IFACE_FF_16GFC_SFP_PLUS, 'SFP+ (16GFC)'],
]
],
[
'Serial',
[
[IFACE_TYPE_T1, 'T1 (1.544 Mbps)'],
[IFACE_TYPE_E1, 'E1 (2.048 Mbps)'],
[IFACE_TYPE_T3, 'T3 (45 Mbps)'],
[IFACE_TYPE_E3, 'E3 (34 Mbps)'],
[IFACE_FF_T1, 'T1 (1.544 Mbps)'],
[IFACE_FF_E1, 'E1 (2.048 Mbps)'],
[IFACE_FF_T3, 'T3 (45 Mbps)'],
[IFACE_FF_E3, 'E3 (34 Mbps)'],
]
],
[
'Stacking',
[
[IFACE_TYPE_STACKWISE, 'Cisco StackWise'],
[IFACE_TYPE_STACKWISE_PLUS, 'Cisco StackWise Plus'],
[IFACE_TYPE_FLEXSTACK, 'Cisco FlexStack'],
[IFACE_TYPE_FLEXSTACK_PLUS, 'Cisco FlexStack Plus'],
[IFACE_TYPE_JUNIPER_VCP, 'Juniper VCP'],
[IFACE_TYPE_SUMMITSTACK, 'Extreme SummitStack'],
[IFACE_TYPE_SUMMITSTACK128, 'Extreme SummitStack-128'],
[IFACE_TYPE_SUMMITSTACK256, 'Extreme SummitStack-256'],
[IFACE_TYPE_SUMMITSTACK512, 'Extreme SummitStack-512'],
[IFACE_FF_STACKWISE, 'Cisco StackWise'],
[IFACE_FF_STACKWISE_PLUS, 'Cisco StackWise Plus'],
[IFACE_FF_FLEXSTACK, 'Cisco FlexStack'],
[IFACE_FF_FLEXSTACK_PLUS, 'Cisco FlexStack Plus'],
[IFACE_FF_JUNIPER_VCP, 'Juniper VCP'],
]
],
[
'Other',
[
[IFACE_TYPE_OTHER, 'Other'],
[IFACE_FF_OTHER, 'Other'],
]
],
]
VIRTUAL_IFACE_TYPES = [
IFACE_TYPE_VIRTUAL,
IFACE_TYPE_LAG,
IFACE_FF_VIRTUAL,
IFACE_FF_LAG,
]
WIRELESS_IFACE_TYPES = [
IFACE_TYPE_80211A,
IFACE_TYPE_80211G,
IFACE_TYPE_80211N,
IFACE_TYPE_80211AC,
IFACE_TYPE_80211AD,
IFACE_FF_80211A,
IFACE_FF_80211G,
IFACE_FF_80211N,
IFACE_FF_80211AC,
IFACE_FF_80211AD,
]
NONCONNECTABLE_IFACE_TYPES = VIRTUAL_IFACE_TYPES + WIRELESS_IFACE_TYPES
@@ -277,46 +202,6 @@ IFACE_MODE_CHOICES = [
[IFACE_MODE_TAGGED_ALL, 'Tagged All'],
]
# Pass-through port types
PORT_TYPE_8P8C = 1000
PORT_TYPE_110_PUNCH = 1100
PORT_TYPE_BNC = 1200
PORT_TYPE_ST = 2000
PORT_TYPE_SC = 2100
PORT_TYPE_SC_APC = 2110
PORT_TYPE_FC = 2200
PORT_TYPE_LC = 2300
PORT_TYPE_LC_APC = 2310
PORT_TYPE_MTRJ = 2400
PORT_TYPE_MPO = 2500
PORT_TYPE_LSH = 2600
PORT_TYPE_LSH_APC = 2610
PORT_TYPE_CHOICES = [
[
'Copper',
[
[PORT_TYPE_8P8C, '8P8C'],
[PORT_TYPE_110_PUNCH, '110 Punch'],
[PORT_TYPE_BNC, 'BNC'],
],
],
[
'Fiber Optic',
[
[PORT_TYPE_FC, 'FC'],
[PORT_TYPE_LC, 'LC'],
[PORT_TYPE_LC_APC, 'LC/APC'],
[PORT_TYPE_LSH, 'LSH'],
[PORT_TYPE_LSH_APC, 'LSH/APC'],
[PORT_TYPE_MPO, 'MPO'],
[PORT_TYPE_MTRJ, 'MTRJ'],
[PORT_TYPE_SC, 'SC'],
[PORT_TYPE_SC_APC, 'SC/APC'],
[PORT_TYPE_ST, 'ST'],
]
]
]
# Device statuses
DEVICE_STATUS_OFFLINE = 0
DEVICE_STATUS_ACTIVE = 1
@@ -324,7 +209,6 @@ DEVICE_STATUS_PLANNED = 2
DEVICE_STATUS_STAGED = 3
DEVICE_STATUS_FAILED = 4
DEVICE_STATUS_INVENTORY = 5
DEVICE_STATUS_DECOMMISSIONING = 6
DEVICE_STATUS_CHOICES = [
[DEVICE_STATUS_ACTIVE, 'Active'],
[DEVICE_STATUS_OFFLINE, 'Offline'],
@@ -332,7 +216,6 @@ DEVICE_STATUS_CHOICES = [
[DEVICE_STATUS_STAGED, 'Staged'],
[DEVICE_STATUS_FAILED, 'Failed'],
[DEVICE_STATUS_INVENTORY, 'Inventory'],
[DEVICE_STATUS_DECOMMISSIONING, 'Decommissioning'],
]
# Site statuses
@@ -345,7 +228,7 @@ SITE_STATUS_CHOICES = [
[SITE_STATUS_RETIRED, 'Retired'],
]
# Bootstrap CSS classes for device/rack statuses
# Bootstrap CSS classes for device statuses
STATUS_CLASSES = {
0: 'warning',
1: 'success',
@@ -353,7 +236,6 @@ STATUS_CLASSES = {
3: 'primary',
4: 'danger',
5: 'default',
6: 'warning',
}
# Console/power/interface connection statuses
@@ -364,133 +246,12 @@ CONNECTION_STATUS_CHOICES = [
[CONNECTION_STATUS_CONNECTED, 'Connected'],
]
# Cable endpoint types
CABLE_TERMINATION_TYPES = [
'consoleport', 'consoleserverport', 'interface', 'poweroutlet', 'powerport', 'frontport', 'rearport', 'circuittermination',
# Platform -> RPC client mappings
RPC_CLIENT_JUNIPER_JUNOS = 'juniper-junos'
RPC_CLIENT_CISCO_IOS = 'cisco-ios'
RPC_CLIENT_OPENGEAR = 'opengear'
RPC_CLIENT_CHOICES = [
[RPC_CLIENT_JUNIPER_JUNOS, 'Juniper Junos (NETCONF)'],
[RPC_CLIENT_CISCO_IOS, 'Cisco IOS (SSH)'],
[RPC_CLIENT_OPENGEAR, 'Opengear (SSH)'],
]
# Cable types
CABLE_TYPE_CAT3 = 1300
CABLE_TYPE_CAT5 = 1500
CABLE_TYPE_CAT5E = 1510
CABLE_TYPE_CAT6 = 1600
CABLE_TYPE_CAT6A = 1610
CABLE_TYPE_CAT7 = 1700
CABLE_TYPE_DAC_ACTIVE = 1800
CABLE_TYPE_DAC_PASSIVE = 1810
CABLE_TYPE_COAXIAL = 1900
CABLE_TYPE_MMF = 3000
CABLE_TYPE_MMF_OM1 = 3010
CABLE_TYPE_MMF_OM2 = 3020
CABLE_TYPE_MMF_OM3 = 3030
CABLE_TYPE_MMF_OM4 = 3040
CABLE_TYPE_SMF = 3500
CABLE_TYPE_SMF_OS1 = 3510
CABLE_TYPE_SMF_OS2 = 3520
CABLE_TYPE_AOC = 3800
CABLE_TYPE_POWER = 5000
CABLE_TYPE_CHOICES = (
(
'Copper', (
(CABLE_TYPE_CAT3, 'CAT3'),
(CABLE_TYPE_CAT5, 'CAT5'),
(CABLE_TYPE_CAT5E, 'CAT5e'),
(CABLE_TYPE_CAT6, 'CAT6'),
(CABLE_TYPE_CAT6A, 'CAT6a'),
(CABLE_TYPE_CAT7, 'CAT7'),
(CABLE_TYPE_DAC_ACTIVE, 'Direct Attach Copper (Active)'),
(CABLE_TYPE_DAC_PASSIVE, 'Direct Attach Copper (Passive)'),
(CABLE_TYPE_COAXIAL, 'Coaxial'),
),
),
(
'Fiber', (
(CABLE_TYPE_MMF, 'Multimode Fiber'),
(CABLE_TYPE_MMF_OM1, 'Multimode Fiber (OM1)'),
(CABLE_TYPE_MMF_OM2, 'Multimode Fiber (OM2)'),
(CABLE_TYPE_MMF_OM3, 'Multimode Fiber (OM3)'),
(CABLE_TYPE_MMF_OM4, 'Multimode Fiber (OM4)'),
(CABLE_TYPE_SMF, 'Singlemode Fiber'),
(CABLE_TYPE_SMF_OS1, 'Singlemode Fiber (OS1)'),
(CABLE_TYPE_SMF_OS2, 'Singlemode Fiber (OS2)'),
(CABLE_TYPE_AOC, 'Active Optical Cabling (AOC)'),
),
),
(CABLE_TYPE_POWER, 'Power'),
)
CABLE_TERMINATION_TYPE_CHOICES = {
# (API endpoint, human-friendly name)
'consoleport': ('console-ports', 'Console port'),
'consoleserverport': ('console-server-ports', 'Console server port'),
'powerport': ('power-ports', 'Power port'),
'poweroutlet': ('power-outlets', 'Power outlet'),
'interface': ('interfaces', 'Interface'),
'frontport': ('front-ports', 'Front panel port'),
'rearport': ('rear-ports', 'Rear panel port'),
}
COMPATIBLE_TERMINATION_TYPES = {
'consoleport': ['consoleserverport', 'frontport', 'rearport'],
'consoleserverport': ['consoleport', 'frontport', 'rearport'],
'powerport': ['poweroutlet', 'powerfeed'],
'poweroutlet': ['powerport'],
'interface': ['interface', 'circuittermination', 'frontport', 'rearport'],
'frontport': ['consoleport', 'consoleserverport', 'interface', 'frontport', 'rearport', 'circuittermination'],
'rearport': ['consoleport', 'consoleserverport', 'interface', 'frontport', 'rearport', 'circuittermination'],
'circuittermination': ['interface', 'frontport', 'rearport'],
}
LENGTH_UNIT_METER = 1200
LENGTH_UNIT_CENTIMETER = 1100
LENGTH_UNIT_MILLIMETER = 1000
LENGTH_UNIT_FOOT = 2100
LENGTH_UNIT_INCH = 2000
CABLE_LENGTH_UNIT_CHOICES = (
(LENGTH_UNIT_METER, 'Meters'),
(LENGTH_UNIT_CENTIMETER, 'Centimeters'),
(LENGTH_UNIT_FOOT, 'Feet'),
(LENGTH_UNIT_INCH, 'Inches'),
)
RACK_DIMENSION_UNIT_CHOICES = (
(LENGTH_UNIT_MILLIMETER, 'Millimeters'),
(LENGTH_UNIT_INCH, 'Inches'),
)
# Power feeds
POWERFEED_TYPE_PRIMARY = 1
POWERFEED_TYPE_REDUNDANT = 2
POWERFEED_TYPE_CHOICES = (
(POWERFEED_TYPE_PRIMARY, 'Primary'),
(POWERFEED_TYPE_REDUNDANT, 'Redundant'),
)
POWERFEED_SUPPLY_AC = 1
POWERFEED_SUPPLY_DC = 2
POWERFEED_SUPPLY_CHOICES = (
(POWERFEED_SUPPLY_AC, 'AC'),
(POWERFEED_SUPPLY_DC, 'DC'),
)
POWERFEED_PHASE_SINGLE = 1
POWERFEED_PHASE_3PHASE = 3
POWERFEED_PHASE_CHOICES = (
(POWERFEED_PHASE_SINGLE, 'Single phase'),
(POWERFEED_PHASE_3PHASE, 'Three-phase'),
)
POWERFEED_STATUS_OFFLINE = 0
POWERFEED_STATUS_ACTIVE = 1
POWERFEED_STATUS_PLANNED = 2
POWERFEED_STATUS_FAILED = 4
POWERFEED_STATUS_CHOICES = (
(POWERFEED_STATUS_ACTIVE, 'Active'),
(POWERFEED_STATUS_OFFLINE, 'Offline'),
(POWERFEED_STATUS_PLANNED, 'Planned'),
(POWERFEED_STATUS_FAILED, 'Failed'),
)
POWERFEED_LEG_A = 1
POWERFEED_LEG_B = 2
POWERFEED_LEG_C = 3
POWERFEED_LEG_CHOICES = (
(POWERFEED_LEG_A, 'A'),
(POWERFEED_LEG_B, 'B'),
(POWERFEED_LEG_C, 'C'),
)

5
netbox/dcim/exceptions.py
View File

@@ -1,5 +0,0 @@
class LoopDetected(Exception):
"""
A loop has been detected while tracing a cable path.
"""
pass

19
netbox/dcim/fields.py
View File

@@ -1,7 +1,12 @@
from __future__ import unicode_literals
from netaddr import EUI, mac_unix_expanded
from django.core.exceptions import ValidationError
from django.core.validators import MinValueValidator, MaxValueValidator
from django.db import models
from netaddr import AddrFormatError, EUI, mac_unix_expanded
from .formfields import MACAddressFormField
class ASNField(models.BigIntegerField):
@@ -30,8 +35,8 @@ class MACAddressField(models.Field):
return value
try:
return EUI(value, version=48, dialect=mac_unix_expanded_uppercase)
except AddrFormatError as e:
raise ValidationError("Invalid MAC address format: {}".format(value))
except ValueError as e:
raise ValidationError(e)
def db_type(self, connection):
return 'macaddr'
@@ -40,3 +45,11 @@ class MACAddressField(models.Field):
if not value:
return None
return str(self.to_python(value))
def form_class(self):
return MACAddressFormField
def formfield(self, **kwargs):
defaults = {'form_class': self.form_class()}
defaults.update(kwargs)
return super(MACAddressField, self).formfield(**defaults)

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netbox/dcim/filters.py
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