Splunk® Enterprise

Splunk Dashboard Studio

This documentation does not apply to the most recent version of Splunk® Enterprise. For documentation on the most recent version, go to the latest release.

Maps

Use a map to visualize geospatial data on a map area of your choice. Geospatial data combines your data sets with coordinates on Earth to visually represent quantities and spread across locations.

A map showing several different world continents. Purple colored markers cluster in different regions.

Generate a map

  1. Select the Add chart button ( The Add Chart button in the editing toolbar. ) in the editing toolbar and browse through the available charts. Choose the map.
  2. Select the map on your dashboard to highlight it with the blue editing outline.
  3. Set up a new data source by selecting + Create search and adding a search to the SPL query window. Or, you can select an existing data source under the Search, Saved search, or Chain search sections.
    1. Maps with marker clusters use the SPL table command.
    2. Maps with bubble clusters use the SPL geostats command.
    3. For example, the following are two different searches. The first is a search for marker layers and the second is a search for bubble layers.
    | inputlookup geomaps_data.csv
    | iplocation device_ip
    | table bytes device_ip lat lon
    
    | inputlookup geomaps_data.csv
    | iplocation device_ip
    | geostats latfield=lat longfield=lon count by method
    
  4. (Optional) You can also write a new ID that describes the search better than the default by changing the ID in Data source name.
  5. Select Apply and close.

Set a tile for the base map

Change your map's background by setting a tile for your base map with the options baseLayerTileServer and baseLayerTileServerType. Valid types for baseLayerTileServerType include "vector" and "raster". Types depend on whether the URL set for baseLayerTileServer is a vector or raster map tile.

For more details about options for maps, see Source options for maps.

The following map visualization uses a raster tile for a base map.

A map visualization with the ocean colored blue and land colored green. Multiple purple markers are spread across the map indicating the longitude and latitude of each marker's location.

Source code

Expand the window to see the source code example for setting a tile for a base map. Notice how baseLayerTileServer uses a raster map tile from a URL.


{
    "visualizations": {
        "viz_lsqZJ7UN": {
            "type": "splunk.map",
            "options": {
                "layers": [
                    {
                        "type": "marker",
                        "latitude": "> primary | seriesByName('lat')",
                        "longitude": "> primary | seriesByName('lon')"
                    }
                ],
                "center": [
                    15.121212505317928,
                    -54.48385692078051
                ],
                "zoom": 1.482683999151066,
                "baseLayerTileServer": "https://api.maptiler.com/maps/outdoor/{z}/{x}/{y}.png?key=NmOL38t5MnH6pNq8if7p",
                "baseLayerTileServerType": "raster"
            },
            "dataSources": {
                "primary": "ds_lfaIoBgK"
            },
            "context": {},
            "showProgressBar": false,
            "showLastUpdated": false
        }
    },
    "dataSources": {
        "ds_lfaIoBgK": {
            "type": "ds.search",
            "options": {
                "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| table bytes device_ip lat lon"
            },
            "name": "Search_1"
        }
    },
    "defaults": {
        "dataSources": {
            "ds.search": {
                "options": {
                    "queryParameters": {
                        "latest": "$global_time.latest$",
                        "earliest": "$global_time.earliest$"
                    }
                }
            }
        }
    },
    "inputs": {
        "input_global_trp": {
            "type": "input.timerange",
            "options": {
                "token": "global_time",
                "defaultValue": "-24h@h,now"
            },
            "title": "Global Time Range"
        }
    },
    "layout": {
        "type": "absolute",
        "options": {
            "width": 1440,
            "height": 960,
            "display": "auto"
        },
        "structure": [
            {
                "item": "viz_lsqZJ7UN",
                "type": "block",
                "position": {
                    "x": 0,
                    "y": 0,
                    "w": 800,
                    "h": 600
                }
            }
        ],
        "globalInputs": [
            "input_global_trp"
        ]
    },
    "description": "",
    "title": "Example of a tile server for maps"
}


Configuration panel options

You can use the Configuration panel to configure the following map components.

Title
Give your visualization a name. The title name is also helpful when searching for individual visualizations in the dashboard definitions and is not the same as the automatically assigned unique ID.

Description
Give your visualization a description to explain what the user is viewing.

Data sources
Choose an existing search or create a new one.

Visibility
Optionally hide the visualization when data is unavailable.

Position and size
You can use your mouse or the Position and size section of the Configuration panel to change the size or location of the visualization for pixel-perfect sizing and placement.

Data configurations
Select the map's layer type.

  • The Marker layer type uses map pins to visualize data and clusters.
    • Select the Latitude list to pick the data source for the visualization's latitude.
    • Select the Longitude list to pick the data source for the visualization's longitude.
  • The Bubble layer type uses differently sized circles or pie charts to visualize data and clusters.
    • Select the Latitude list to pick the data source for the visualization's latitude.
    • Select the Longitude list to pick the data source for the visualization's longitude.
    • Select the Size list to pick the visualization's bubble size data source.
  • The Choropleth layer type uses differently colored map areas to visualize distinct data concentrations.
    • Select the Region Area IDs list to pick the field from your data source for the type of geographical area you want visualized with data.
    • Select the Values list to pick the data source for measuring results.

Data display
Optionally select the latitude and longitude of the initial map location, and turn on or off the zoom controls.

Color and style
Select colors for the map, toggle the base layer on or off, and modify the corner radius of the visualization.

Interactions
Use drilldown to create interactivity with the different map layers. For example, with drilldown, users can click on a bubble to set a token which you can use to open a secondary search using the clicked values. For more details about setting tokens, see Setting tokens on a visualization click.

Source code
Select your visualization or its search to view and edit the source code in real-time. You can also change the Visualization ID to a more readable ID to help identify this visualization in the source code.

Marker map example

This marker map example uses config to create differently colored marker clusters to demonstrate a range of HTTP requests across geographical regions. The colors indicate varying numbers of requests based on the following ranges:

  • 3001 or more requests are red
  • 2001-3000 requests are blue
  • 1001-2000 requests are yellow
  • 1000 or fewer requests are green

A map showing several different world continents. Yellow, red, blue, and green colored markers cluster in different regions.

Source code

The following is the source code for the marker map example.

{
    "visualizations": {
        "viz_marker_cluster": {
            "type": "splunk.map",
            "options": {
                "center": [
                    24.29483056343649,
                    2.4662060255499227
                ],
                "zoom": 1.3915833226487502,
                "layers": [
                    {
                        "type": "marker",
                        "latitude": "> primary | seriesByName(\"lat\")",
                        "longitude": "> primary | seriesByName(\"lon\")",
                        "dataColors": "> primary | seriesByName(\"bytes\") | rangeValue(config)"
                    }
                ]
            },
            "context": {
                "config": [
                    {
                        "from": 3001,
                        "value": "#de1d20"
                    },
                    {
                        "from": 2001,
                        "to": 3000,
                        "value": "#54afda"
                    },
                    {
                        "from": 1001,
                        "to": 2000,
                        "value": "#ded41d"
                    },
                    {
                        "to": 1000,
                        "value": "#4ade1d"
                    }
                ]
            },
            "dataSources": {
                "primary": "ds_x7YkfW2Y"
            }
        }
    },
    "dataSources": {
        "ds_x7YkfW2Y": {
            "type": "ds.search",
            "options": {
                "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| table bytes device_ip lat lon"
            },
            "name": "Search_1"
        },
        "ds_TMfPIhsl": {
            "type": "ds.search",
            "options": {
                "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| table bytes device_ip lat lon"
            },
            "name": "Search_2"
        },
        "ds_4QzeZfAB": {
            "type": "ds.search",
            "options": {
                "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| geostats latfield=lat longfield=lon count"
            },
            "name": "Search_3"
        },
        "ds_DHERK2tc": {
            "type": "ds.search",
            "options": {
                "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| geostats latfield=lat longfield=lon count by method"
            },
            "name": "Search_4"
        }
    },
    "defaults": {
        "dataSources": {
            "ds.search": {
                "options": {
                    "queryParameters": {
                        "latest": "$global_time.latest$",
                        "earliest": "$global_time.earliest$"
                    }
                }
            }
        }
    },
    "inputs": {
        "input_global_trp": {
            "type": "input.timerange",
            "options": {
                "token": "global_time",
                "defaultValue": "-24h@h,now"
            },
            "title": "Global Time Range"
        }
    },
    "layout": {
        "type": "absolute",
        "options": {
            "display": "auto-scale"
        },
        "structure": [
            {
                "item": "viz_marker_cluster",
                "type": "block",
                "position": {
                    "x": 30,
                    "y": 30,
                    "w": 1010,
                    "h": 420
                }
            }
        ],
        "globalInputs": [
            "input_global_trp"
        ]
    },
    "description": "",
    "title": "Marker Cluster Map example"
}

Bubble map example

The following bubble map example uses bubble clusters to demonstrate the type and number of HTTP requests in different geographic regions.

A map of different world continents. Pie charts of different sizes are scattered in different regions of the map. Purple portions of the charts represent GET requests and blue portions of the charts represent POST requests.

Source code

The following is the source code for the bubble map example.

{
   "visualizations": {
       "viz_bubble_cluster": {
           "type": "splunk.map",
           "options": {
                "layers": [
		    {
		        "type": "bubble"
		    }
		]
           },
           "dataSources": {
               "primary": "ds_DHERK2tc"
           }
       }
   },
   "dataSources": {
       "ds_x7YkfW2Y": {
           "type": "ds.search",
           "options": {
               "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| table bytes device_ip lat lon"
           },
           "name": "Search_1"
       },
       "ds_TMfPIhsl": {
           "type": "ds.search",
           "options": {
               "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| table bytes device_ip lat lon"
           },
           "name": "Search_2"
       },
       "ds_4QzeZfAB": {
           "type": "ds.search",
           "options": {
               "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| geostats latfield=lat longfield=lon count"
           },
           "name": "Search_3"
       },
       "ds_DHERK2tc": {
           "type": "ds.search",
           "options": {
               "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| geostats latfield=lat longfield=lon count by method"
           },
           "name": "Search_4"
       }
   },
   "defaults": {
       "dataSources": {
           "ds.search": {
               "options": {
                   "queryParameters": {
                       "latest": "$global_time.latest$",
                       "earliest": "$global_time.earliest$"
                   }
               }
           }
       }
   },
   "inputs": {
       "input_global_trp": {
           "type": "input.timerange",
           "options": {
               "token": "global_time",
               "defaultValue": "-24h@h,now"
           },
           "title": "Global Time Range"
       }
   },
   "layout": {
       "type": "absolute",
       "options": {
           "display": "auto-scale"
       },
       "structure": [
           {
               "item": "viz_bubble_cluster",
               "type": "block",
               "position": {
                   "x": 20,
                   "y": 20,
                   "w": 940,
                   "h": 490
               }
           }
       ],
       "globalInputs": [
           "input_global_trp"
       ]
   },
   "description": "",
   "title": "Bubble cluster example"
}

Choropleth map example

The following map uses IP address location to demonstrate the geographical areas with the highest concentration of unique IP addresses.

A world map with different countries highlighted in varying shades of purple. The darker the purple, the more unique IP addresses are in that country.

Source code

The following is the source code for the choropleth map example.

{
  "visualizations": {
    "viz_epnyq5z8": {
      "type": "splunk.map",
      "options": {
        "center": [
          5.684341886080802e-14,
          -122.41949999999997
        ],
        "zoom": 0.22881867003789005,
        "layers": [
          {
            "type": "choropleth",
            "areaIds": "> primary | seriesByName('country')",
            "areaValues": "> primary | seriesByName('count')"
          }
        ]
      },
      "dataSources": {
        "primary": "ds_YyFf4bor"
      }
    }
  },
  "dataSources": {
    "ds_YyFf4bor": {
      "type": "ds.search",
      "options": {
        "query": "| inputlookup geomaps_data.csv\n| iplocation device_ip\n| lookup geo_countries latitude AS lat longitude AS lon OUTPUT featureId AS country\n| stats distinct_count(device_ip) by country\n| geom geo_countries featureIdField=country"
      },
      "name": "Search_1"
    }
  },
  "defaults": {
    "dataSources": {
      "ds.search": {
        "options": {
          "queryParameters": {
            "latest": "$global_time.latest$",
            "earliest": "$global_time.earliest$"
          }
        }
      }
    }
  },
  "inputs": {
    "input_global_trp": {
      "type": "input.timerange",
      "options": {
        "token": "global_time",
        "defaultValue": "-24h@h,now"
      },
      "title": "Global Time Range"
    }
  },
  "layout": {
    "type": "absolute",
    "options": {
      "width": 1440,
      "height": 960,
      "display": "auto"
    },
    "structure": [
      {
        "item": "viz_epnyq5z8",
        "type": "block",
        "position": {
          "x": 0,
          "y": 0,
          "w": 800,
          "h": 600
        }
      }
    ],
    "globalInputs": [
      "input_global_trp"
    ]
  },
  "description": "",
  "title": "Choropleth layer example"
}

Source options for maps

The following options are available for editing maps in the source editor.

Property Type Default Description
backgroundColor string > themes.defaultBackgroundColor Specify the color for the background. You can use a data source or hexadecimal code to apply the color.
center number n/a Specify the map's center using latitude and longitude. The center might automatically set or result in [0,0] coordinates depending on available data.
layers object[] [object Object],[object Object] Specify the data visualization layers on top of the base map. The layer can also be empty and only show the base map.
scaleUnit ("metric" | "imperial") metric Specify which scale unit to use.
showScale boolean TRUE Specify whether to show the scale on the bottom left.
baseLayerTileServer string n/a Specify the tile set URL for the base map. For example, you might use street tiles for a neighborhood map or terrain tiles for a mountain range map.
baseLayerTileServerType ("vector" | "raster") n/a Specify the type of tile set for the base map. Valid types include "vector" and "raster".
zoom number n/a Specify the zoom level of the map.

layers (object type)

The following are nested options that you can set in the layers section of the visualization stanza.

Property Type Default Description
type ("marker" | "bubble") bubble Specify the type of data layer method to display points on the map. For example, "bubble" or "marker".
bubbleSize (string | array) frameBySeriesTypes("number") Specify the data column to encode bubble size. This applies to layers where the type is "bubble".
latitude (string | array) > primary | seriesByName("latitude") Specify a data source to apply latitude coordinates for data points displayed on the map.
longitude (string | array) > primary | seriesByName("longitude") Specify a data source to apply longitude coordinates for data points displayed on the map.
dataColors (string | array) n/a Specify the colors used for data points. If specified, this option overrides the seriesColors option. You can use a data source or an array of colors to apply the coloring. For example, " > primary | seriesByName("status") | matchValue(colorMatchConfig)".
seriesColors string[] ["#7B56DB", "#009CEB", "#00CDAF", "#DD9900", "#FF677B", "#CB2196", "#813193", "#0051B5", "#008C80", "#99B100", "#FFA476", "#FF6ACE", "#AE8CFF", "#00689D", "#00490A", "#465D00", "#9D6300", "#F6540B", "#FF969E", "#E47BFE"] Specify the colors used for data points. If the dataColors option is specified, the seriesColors option is ignored.
additionalTooltipFields string[ ] [ ] Specify the fields to add to the default set of tooltips. Tooltips appear when you hover over data points. These fields and their corresponding values will be shown in addition to those displayed by default.
resultLimit number 1000 Specify the maximum number of data points to render on the map.
Last modified on 08 August, 2024
Link graphs   Parallel coordinates

This documentation applies to the following versions of Splunk® Enterprise: 9.2.0, 9.2.1, 9.2.2, 9.2.3, 9.2.4, 9.3.0, 9.3.1, 9.3.2


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