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77 lines
3.6 KiB
Gherkin
77 lines
3.6 KiB
Gherkin
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Feature: Networking Topology Visualization
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In order to increase the ease and understanding of network automation
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As as network engineer
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I want a visualization of the network topology so that I can
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easily understand how the network topology is connected
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Scenario: Blank canvas
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Given an ansible inventory
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When the user clicks on the network topology icon for that inventory
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Then populate the toolbox with the data loaded from inventory
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Scenario: Device Organization
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Given an ansible inventory loaded into the canvas toolbox
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When the user clicks and drags on a device in the inventory toolbox
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Then place the device onto the topology canvas at the location of the user's mouse pointer
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Scenario: Link Connection
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Given an ansible inventory loaded into the canvas toolbox
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When the user clicks and drags on a device in the inventory toolbox
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Then automatically draw lines and circles that represent the links
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And interfaces of the connected devices.
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Scenario: Customize Layout
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Given a canvas populated with a network topology
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When the user clicks and drags on a device on the topology canvas
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Then move the device to the location of the user's mouse pointer
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And update the links and interfaces representations
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Scenario: Export SVG
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Given a canvas populated with a network topology
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When the user clicks on the Export SVG button
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Then capture the current view of the canvas
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And download an SVG file of the canvas to the users computer
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Scenario: Export YAML
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Given a canvas populated with a network topology
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When the user clicks on the Export YAML button
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Then capture the state of the current view of the canvas
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And download a YAML file that represents the data to the user's computer
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Scenario: Pan
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Given a canvas populated with a network topology
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When the user clicks and drags on the background
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Then move the viewport of the virtual canvas to match the user's mouse movement
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Scenario: Zoom
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Given a canvas populated with a network topology
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When the user scrolls their mousewheel or clicks and drags on the zoom widget
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Then scale the viewport of the virtual canvas to the zoom level reflected on the zoom widget
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Scenario: Hide information when zooming out
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Given a canvas populated with a network topology
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When the user zooms out via mouse wheel or zoom widget
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Then hide low-level information to provide a high-level overview as the zoom level changes
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Scenario: Show more information when zooming in
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Given a canvas populated with a network topology
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When the user zooms in via mouse wheel or zoom widget
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Then show more low-level information to provide more detail for the devices that are in view on the virtual canvas
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Scenario: Device Detail
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Given a canvas populated with a network topology
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When the user clicks on show details device context menu button
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Then show the device details including name, description, and host vars
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Scenario: Remove Device
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Given a canvas populated with a network topology
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When the user clicks on remove device context menu button
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Then remove the device and connected links from the canvas
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And return the device to the inventory toolbox
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Scenario: Search by Device Name
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Given a canvas populated with a network topology
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When the user types the device name or selects it from a device drop down list
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Then position the viewport on the virtual canvas over the device with that name
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