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Network Map Panel for Grafana

The Network Map Panel is a world map that provides the ability to monitor and visualize realtime traffic statistics. It uses timeseries data to represent traffic between nodes as circuits. It provides this information when hovered over the circuits and nodes.

Network Map

Features

The Network Map Panel also provides the ability to configure different map options and display options.

Options Tab

Biggest Features

  • Map Options Map Options

    • Map URL: A valid map url should be provided so that the map loads with all the tiles. In the screenshot below, mapbox api is used to specify the map tiles. A valid access token is necessary for the mapbox API.

    • Hide Layers with no values: This option allows the user to hide any layers/circuits when there's no data returned for them.

    • JSON Validator: This option provides the user with a JSON validator to validate and edit the JSON map source object.

      1. Ability to automatically load the JSON map source when double clicked on Map Source field.
      2. Ability to validate the JSON and display validation messages.
      3. Ability to save the valid JSON back to its Map Source.

      JSON Validator

  • Layers: Different layers/circuits can be added to the map using this option. A valid Map Source is required to add each layer on to the map.

Layer Options

Example map source json object.

{
  "results": [
    {
      "links": [
        {
          "endpoints": [
	    {
	      "name": "enpoint1 to endpoint2 input",
              "label": "label for endpoint1"
	    },
	    {
	      "name": "endpoint1 to endpoint2 output",
              "label": "label for endpoint2"
	    }
	  ],
          "path": [
            {
              "lon": "138.8671875",
              "order": "10",
              "lat": "36.0313317763319"
            },
            {
              "lon": "-122.335927373024",
              "order": "20",
              "lat": "47.5652166492485"
            }
          ],
          "name": "Link Name"
        }
      ],
      "endpoints": [
        {
          "pop_id": null,
          "lon": "139.853142695116",
          "real_lon": null,
          "real_lat": null,
          "name": "endpoint1",
          "lat": "35.7653023546885"
        },
        {
          "pop_id": null,
          "lon": "-122.335927373024",
          "real_lon": null,
          "real_lat": null,
          "name": "endpoint2",
          "lat": "47.5652166492485"
        }
      ]
    }
  ]
}

Other Features

  • Ability to set the map's center by providing the lat and long coordinates.
  • Ability to specify the zoom level on the map.

Display Tab

Display tab provides different options for the user to customize the monitoring experience of the metrics on the map.

Biggest Features

  • Colors: Ability to change the color scheme for the layers on the map based on two different modes.

    • Mode: Spectrum. This mode currently has 19 different color schemes to choose from.

colors-1 colors-2 colors-3

New Color Scheme

  • Mode: Opacity. This mode provides the ability to choose from two different scales, i.e., linear, sqrt. It also provides the option to choose a custom color from the color picker.

opacity-1 opacity-2 opacity-3

Opacity Scheme

  • Mode: Threshold. This mode provides the ability to specify thresholds as comma separated values between 0 and 100 i.e. 0 < thresholds < 100. It provides the ability to choose a distinct color for each threshold.

threshold-1 threshold-2

threshold Scheme

  • Legend: Invert legend. This option inverts the current legend on the map and also affects the map to use the inverted scheme.

Invert Legend Inverted Scheme

  • Line Color: Ability to choose the behavior of the line colors based on metric.

Line Color

  • Tooltip: Ability to customize the tooltip for the map. It also provides an option for the user to enter html to have a customized link hover box and customized node hover box.

Tooltip Options

Tooltip

Tooltip

Other Features

  • Show or Hide Legend
  • Show or Hide Tooltip

Timeseries data for the Network Map

The Network Map Panel takes the timeseries data to represent the traffic between nodes. An example of a query is as follows. Note that the query is for the GlobalNoc's TSDS Datasource.

get link_name, node, aggregate(values.input, 60, average), aggregate(values.output, 60, average) between (1520024588, 1520024888) by link_name from interface where (link_name like ".+")

The query can also be built using the visual query builder from the metrics tab in the map editor. It is shown in the picture below.

TSDS Query

Example of the response dataList that is used by the Network Map Panel to process and render the circuits is shown in the block below.

{
  "dataList": [
  {
     "datapoints": [
        [32583665.47, 1520260620000],[28523481.33, 1520260680000],[23701115.87, 1520260740000],[26656626.8, 1520260800000],[null, 1520260860000]
     ],
     "name": "aggregate(values.input, 60, average)",
     "target": "endpoint1 to endpoint2 input"
  },
  {
     "datapoints": [
      [1171793116.67, 1520260620000],[1075541011.2, 1520260680000],[1005332018.67, 1520260740000],[1087891948.67, 1520260800000],[null, 1520260860000]
     ],
     "name": "aggregate(values.output, 60, average)",
     "target": "endpoint1 to endpoint2 output"
  },
  {...},
  {...}
  ]
}

The target name from each data object in the dataList is matched with the endpoints from the map source json object provided by the user. This allows the map to show the appropriate information for each circuit returned by the TSDS query.

Example

This section demonstrates how the map topology is lined up with the data returned by the TSDS query.

dataList object returned by the TSDS datasource.

{
    "dataList":[
        {
            "name": "aggregate(values.input, 60, average)", "target": "A: endpoint2 to endpoint3 input", "datapoints": [[32583665.47, 1520260620000],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "A: endpoint2 to endpoint3 output", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "A: endpoint1 to endpoint2 input", "datapoints":[[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "A: endpoint1 to endpoint2 output", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "A: endpoint1 to endpoint3 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "A: endpoint1 to endpoint3 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "B: endpoint1 to endpoint2 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "B: endpoint1 to endpoint2 output", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "C: endpoint2 to endpoint3 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "C: endpoint2 to endpoint3 output", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "C: endpoint3 to endpoint4 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "C: endpoint3 to endpoint4 output", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "C: endpoint5 to endpoint4 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "C: endpoint5 to endpoint4 output", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "C: endpoint1 to endpoint5 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "C: endpoint1 to endpoint5 output", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.input, 60, average)", "target": "D: endpoint1 to endpoint2 input", "datapoints": [[...],[...],[...]]
        },
        {
            "name": "aggregate(values.output, 60, average)", "target": "D: endpoint1 to endpoint2 output", "datapoints": [[...],[...],[...]]
        }
    ]
}

The target names from the above dataList are matched with the endpoints from links field in the Map Source JSON object.

Map Source JSON object with three endpoints.

{
  "results": [
    {
      "links": [
        {
          "endpoints": [
	     {
	       "name": "A: endpoint1 to endpoint3 input",
	       "label": "label for endpoint"
	     },
	     {
	       "name": "A: endpoint1 to endpoint3 output",
	       "label": "label for endpoint"
	     }
          ],
          "path": [
            {
              "lon": "-80.4992152",
              "lat": "26.2118715",
              "name": "ep1"
            },
            {
              "lon": "-55",
              "lat": "0"
            },
            {
              "lon": "-46.5952992",
              "lat": "-23.6824124",
              "name": "ep3"
            }
          ],
          "name": "A: endpoint1 to endpoint3"
        },
        {
          "endpoints": [
	    {
	      "name": "A: endpoint2 to endpoint3 input",
	      "label": "label for endpoint"
	    },
	    {
	      "name": "A: endpoint2 to endpoint3 output",
	      "label": "label for endpoint"
	    }
          ],
          "path": [
            {
              "lon": "-46.5952992",
              "lat": "-23.6824124",
              "name": "ep3"
            },
            {
              "lon": "-55",
              "lat": "-32"
            },
            {
              "lon": "-70.6791936",
              "lat": "-33.4533673",
              "name": "ep2"
            }
          ],
          "name": "A: endpoint2 to endpoint3"
        },
        {
          "endpoints": [
	    {
	      "name": "A: endpoint1 to endpoint2 input",
	      "label": "label for endpoint"
	    },
	    {
	      "name": "A: endpoint1 to endpoint2 output",
	      "label": "label for endpoint"
	    }
          ],
          "path": [
            {
              "lon": "-70.6791936",
              "lat": "-33.4533673",
              "name": "ep2"
            },
            {
              "lon": "-88",
              "lat": "5"
            },
            {
              "lon": "-79.7240525",
              "lat": "9.1422762"
            },
            {
              "lon": "-75",
              "lat": "15"
            },
            {
              "lon": "-80.4992152",
              "lat": "26.2118715",
              "name": "ep1"
            }
          ],
          "name": "A: endpoint1 to endpoint2"
        }
      ],
      "endpoints": [
        {
          "lon": "-80.4992152",
          "lat": "26.2118715",
          "name": "endpoint1 cpu",
	  "label": "endpoint1 label"
        },
        {
          "lon": "-46.5952992",
          "lat": "-23.6824124",
          "name": "endpoint2 cpu",
	  "label": "endpoint2 label"
        },
        {
          "lon": "-70.6791936",
          "lat": "-33.4533673",
          "name": "endpoint3 cpu",
	  "label": "endpoint3 label"
        }
      ]
    }
  ]
}

Network Map converts the map source json into an array of links and endpoints. Each element in the links array is an object that is represented in the block below.

[
  {
	  "endpoints": [{"name": "A: endpoint1 to endpoint3 input", "label": "label for endpoint"},{"name": "A: endpoint1 to endpoint3 output", "label": "label for endpoint"}].
	  "link_id": "link_1234",
	  "name": "A: endpoint1 to endpoint3",
	  "path": [{lat,lng,name,...},{lat,lng,name,...},{lat,lng,name,...}]
  }, 
  {...},
  {...},
  {...},
    .
    .
    .
]

The map renders circuits if the endpoints.name of these links match with the target in the dataList array. In addition, the corresponding data for each circuit is used to calculate the metrics to be shown on the map.

In the example above, the first six results in the dataList object match with the endpoints.name from each of the three links. Therefore, the network map renders three circuits for the provided map source json object.

example circuit

Technology

The Network Map Panel makes use of the following libraries:

  • Leaflet
  • Atlas3
  • D3
  • Lodash

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