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Enrich your location data with Azure Maps

There are many situations where you have a collection of addresses but they are not really useful unless you can know exactly what and where they represent. Enriching those addresses with the ability to be understood geographically opens up infinite use cases to leverage that data for proximity calculation and visualization experiences that can not be accomplished with addresses alone. The following steps show how you might easily prepare a set of address data for such scenarios.

Prerequisites

To build this solution you will need:

  1. An Azure Subscription (sign up here for free)
  2. An Azure Maps account
  3. Visual Studio Code and Git installed on your local machine

Create a resource group

As a best practice, and to facilitate tearing down the environment when you are done, use these instructions to create a Resource Group in your Azure Subscription.

Create an Azure Maps account

Create a new Azure Maps account with the following steps:

  1. Select Create a resource in the upper left-hand corner of the Azure portal.

  2. Type Azure Maps in the Search services and Marketplace box.

  3. Select Azure Maps in the drop-down list that appears, then select the Create button.

  4. On the Create an Azure Maps Account resource page, enter the following values then select the Create button:

    • The Subscription that you want to use for this account.
    • The Resource group name for this account. You may choose to Create new or Select existing resource group.
    • The Name of your new Azure Maps account.
    • The Pricing tier for this account. Select Gen2.
    • Read the License and Privacy Statement, then select the checkbox to accept the terms.

    azure-maps-account

Create the database

  1. Follow these instructions, to create an Azure SQL Database Server and a database, you can use any name you want to create your resources. In this tutorial we will call the database azuremapsdb.

  2. When all of the resources have been provisioned, in the Azure Portal navigate to your database server and update the network configurations to allow public network access from selected networks, add your IP address to the firewall rules as an allowed inbound traffic rule for local testing and select the box at the end to allow Azure Services to access the resource. We need this setting to allow access from our Azure Functions to our database.

    networking_config_db

  3. Next use the query editor to populate the database with the following commands:

    use azuremapsdb;
    
    GO
    
    drop table Locations
    
    GO 
    create table Locations(
     id int identity not null primary key,
     street_number varchar(100) not null,
     street_name varchar(100) not null,
     details  varchar(100),
     city varchar(100) not null,
     province varchar(2) not null,
     postal_code varchar(10) not null,
     country_code varchar(2) not null,
     latitude Decimal(8,6),
     longitude Decimal(9,6))
    
    GO 
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('81', 'Bay St', 'Suite 4400','Toronto', 'ON', 'M5J 0E7', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('6795', 'Marconi Street', 'Suite 401', 'Montreal', 'QC', 'H2S 3J9', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('2000', 'Avenue McGill College', 'Suite 1400', 'Montreal', 'QC', 'H3A 3H3', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('100', 'Queen Street', 'Suite 500', 'Ottawa', 'ON', 'K1P 1J9', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('360', 'Main Street', 'Suite 1150', 'Winnipeg', 'MB', 'R3C 3Z3', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('110', '9th Avenue SW', '7th Floor Suite 710', 'Calgary', 'AB', 'T2P 0T1', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('10155', '102 Street', 'Suite 2100 Commerce Place', 'Edmonton', 'AB', 'T5J 4G8', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('155', 'Water Street', '7th Floor', 'Vancouver', 'BC', 'V6B 5C6', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('725', 'Granville Street', 'Suite 700', 'Vancouver', 'BC', 'V7Y 1G5', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('858', 'Beatty Street', '6th Floor', 'Vancouver', 'BC', 'V6B 1C1', 'CA');
    
    insert into Locations(street_number, street_name, details, city, province, postal_code, country_code)
    values ('375', 'Water Street', 'Suite 710', 'Vancouver', 'BC', 'V6B 5C6', 'CA');
    
    GO
    
    select * from Locations;

The script above creates a table called Locations and populates it with address parameters. You might notice that our sample is populating the database with public addresses for Microsoft offices in Canada. Note that we are keeping the latitude and longitude parameters empty, on purpose.

Enrich the database and query for addresses

To fill those parameters we will create two functions:

  1. EnrichDatabase queries every address in the database that has an a\empty geolocation, makes a Search API call to Azure Maps and populates the database with the latitude and longitude gathered from the response. We will use this first to enrich our address database.
  2. GetLocations simply queries for all enriched adddresses in the database. We will use this function in our front-end web application.

Create the Function Apps

Our sample functions are coded in C# to take advantage of Azure Functions SQL Extensions, which are easier to use in C# than in other coding languages. Should you wish to use another language, you can use them in Java, JavaScript, Powershell and Python. Overall, they expedite the development time to build the connectivity between the Azure Function and the Azure SQL database by creating a simpler process to generate inputs, outputs and triggers.

  1. Install Azure Functions Core Tools

  2. Using Visual Studio Code, create two function apps for .NET by following this guide. We can test this locally but feel free to publish them to your Azure Subscription. Create one called EnrichDatabase and another called GetLocations.

  3. Clone [this repository](TODO: add link to repository) containing the source code for both functions and the Azure Maps handler.

Build and configure the connections to the SQL Server

To create our connection we need to enable SQL bindings on the function app as follows:

  1. Install the extension:

    dotnet add package Microsoft.Azure.WebJobs.Extensions.Sql --prerelease
  2. Get the SQL connection string from your database.

Local SQL Server - Use this connection string, replacing the placeholder values for the database and password.

Server=localhost;Initial Catalog={db_name};Persist Security Info=False;User ID=sa;Password={your_password};
Azure SQL Server - Browse to the SQL Database resource in the Azure portal
- In the left blade click on the Connection Strings tab
- Copy the SQL Authentication connection string

(Note: when pasting in the connection string, you will need to replace part of the connection string where it says '{your_password}' with your Azure SQL Server password)
  1. Open the generated local.settings.json file and in the Values section verify you have the below. If not, add the below and replace {connection_string} with the your connection string from the previous step:

     "AzureWebJobsStorage": "UseDevelopmentStorage=true",
     "AzureWebJobsDashboard": "UseDevelopmentStorage=true",
     "SqlConnectionString": "{connection_string}"

Follow this guide for a deeper lesson on SQL bindings.

Configure Azure Maps

  1. To enable this project to use the Azure Maps Search API, install the client library for .NET with NuGet:

    dotnet add package Azure.Maps.Search --prerelease
  2. Then get the Azure Maps primary key from the Azure Portal. Navigate to your Azure Maps resource and copy the Primary key content from the Authentication tab.

    image

  3. Open your local.settings.json file and add the following line at the end:

    "AzureMapsKey": "{Your key copied in the previous step}"

Run the solution

In Visual Studio Code, open the terminal and press F5 to start debugging the backend application. You should see the two functions deployed locally.

image

First, run the GetLocations function. You should see a list of addresses with no latitude and longitude like this:

[
  {
    "id": 1,
    "street_number": "81",
    "street_name": "Bay St",
    "details": "Suite 4400",
    "city": "Toronto",
    "province": "ON",
    "postal_code": "M5J 0E7",
    "country_code": "CA",
    "latitude": null,
    "longitude": null
  },
  {
    "id": 2,
    "street_number": "6795",
    "street_name": "Marconi Street",
    "details": "Suite 401",
    "city": "Montreal",
    "province": "QC",
    "postal_code": "H2S 3J9",
    "country_code": "CA",
    "latitude": null,
    "longitude": null
  }
  ...
  {
    "id": 11,
    "street_number": "375",
    "street_name": "Water Street",
    "details": "Suite 710",
    "city": "Vancouver",
    "province": "BC",
    "postal_code": "V6B 5C6",
    "country_code": "CA",
    "latitude": null,
    "longitude": null
  }
]

Now, run the EnrichDatabase function. If no problems appear in the console, you should see the a 204 response code.

Finally, run GetLocations for a second time. The new response will now contain the geolocations for the addresses"

[
  {
    "id": 1,
    "street_number": "81",
    "street_name": "Bay St",
    "details": "Suite 4400",
    "city": "Toronto",
    "province": "ON",
    "postal_code": "M5J 0E7",
    "country_code": "CA",
    "latitude": 43.64423,
    "longitude": -79.37808
  },
  {
    "id": 2,
    "street_number": "6795",
    "street_name": "Marconi Street",
    "details": "Suite 401",
    "city": "Montreal",
    "province": "QC",
    "postal_code": "H2S 3J9",
    "country_code": "CA",
    "latitude": 45.53052,
    "longitude": -73.61581
  },
  ...
  {
    "id": 11,
    "street_number": "375",
    "street_name": "Water Street",
    "details": "Suite 710",
    "city": "Vancouver",
    "province": "BC",
    "postal_code": "V6B 5C6",
    "country_code": "CA",
    "latitude": 49.28484,
    "longitude": -123.11023
  }
]

Review the code

Inside the dotnet folder, you'll find the all the backend code that we will use to fetch the database locations and enrich the addresses. Let's breakdown file by file.

  1. Locations.cs

    This model represents the Location table in our database. Note that the latitude and longitude values are nullable, because when we query for the addresses for the first time, they won't exist.

  2. GetLocations.cs

    This is the function that will be used in our front-end web application to search for the address geolocation and populate the map.

  3. EnrichDatabase.cs

    This function searches for addresses without geolocations, calls the SearchForAddress API from Azure Maps to collect the latitude and longitude for all locations and store them in the database.

About Azure Maps

At this point, let's talk about how we are leveraging Azure Maps to achieve the database enrichment process.

Azure Maps provides multiple APIs for you to geocode(generate a geolocation from an address) and reverse-geocode(generate an address from a geolocation) addresses. In this particular example, we will use the API SearchStructuredAddressAsync for our task. This API is perfect for our use case, as we have a broken down address structured that we can pass as a parameter to retrieve the geolocation as a response.

Let's look at the AzureMapsHandler.cs file

 public class AzureMapsHandler
{
    private MapsSearchClient searchClient;
 
    public AzureMapsHandler()
    {
        //Get azure maps key from configuration file
        string azureMapsKey = Environment.GetEnvironmentVariable("AzureMapsKey", EnvironmentVariableTarget.Process);

        // Create a SearchClient that will authenticate through Subscription Key (Shared key)
        AzureKeyCredential credential = new AzureKeyCredential(azureMapsKey);
        this.searchClient = new MapsSearchClient(credential);
    }

    public async Task<Location> SearchForAddress(Location location)
    {
        //Create Structured address object from database query
        var address = new StructuredAddress
        {
            CountryCode = location.country_code,
            StreetNumber = location.street_number,
            StreetName = location.street_name,
            Municipality = location.city,
            CountrySubdivision = location.province,
            PostalCode = location.postal_code
        };

        //Call the SearchStructuredAddressAsync API to query for the address geolocation
        Response<SearchAddressResult> searchResult = await this.searchClient.SearchStructuredAddressAsync(address);

        SearchAddressResultItem resultItem = searchResult.Value.Results[0];
        location.latitude = resultItem.Position.Latitude;
        location.longitude = resultItem.Position.Longitude;
        
        return location;
    }
}

When the class is instantiated, a credential was created using the Azure Maps key that was stored as an environment variable. After that, this credential was used to create the MapsSearchClient.

AzureKeyCredential credential = new AzureKeyCredential(azureMapsKey);
this.searchClient = new MapsSearchClient(credential);

Managed identities can also be used as a more secure solution to generate your credentials. Follow this guide if you would like to know more about this approach.

Next a StructuredAddress object was created from the location and passed as a parameter.

var address = new StructuredAddress
{
   CountryCode = location.country_code,
   StreetNumber = location.street_number,
   StreetName = location.street_name,
   Municipality = location.city,
   CountrySubdivision = location.province,
   PostalCode = location.postal_code
};

Finally, the SearchStructureAddressAsync API was called passing the structured address as a parameter and updated the location with the latitude and longitude from the response.

Response<SearchAddressResult> searchResult = await this.searchClient.SearchStructuredAddressAsync(address);
SearchAddressResultItem resultItem = searchResult.Value.Results[0];
location.latitude = resultItem.Position.Latitude;
location.longitude = resultItem.Position.Longitude;

If you want to see more Search samples, follow this resource. To learn more about the Azure Maps C# SDK, read this.

Geocode storage considerations

In general, Azure Maps has specific terms of usage that prevent customers from caching or storing information delivered by the Azure Maps API including but not limited to geocodes and reverse geocodes for the purpose of scaling such results to serve multiple users, or to circumvent any functionality in Azure Maps.

However, caching and storing results is permitted where the purpose of caching is to reduce latency times of Customer’s application. Results may not be stored for longer than: the validity period indicated in returned headers; or 6 months, whichever is the shorter. Notwithstanding the foregoing, Customer may retain continual access to geocodes as long as Customer maintains an active Azure account.

Visualize the results

Inside the folder frontend open MapView.html. We need to replace two lines to get this web page working.

  1. In line 24, replace the value of getLocationURL with your local or remote function URL, pointing to the API we created in the previous step:

    const getLocationURL = '<Your API URL>';
  2. In line 36, inside the map initialization function GetMap(), replace with your Azure Maps subscription key to authorize access to your resource:

    //Initialize a map instance.
    map = new atlas.Map('myMap', {
        center: [-110.000880, 56.043483],
        zoom: 2,
        view: 'Auto',
    
        //Add authentication details for connecting to Azure Maps.
        authOptions: {
            authType: 'subscriptionKey',
            subscriptionKey: '<Your subscription key>'
        }
    });
  3. Open MapView.html, you should see the following result:

    image

Tear down the environment when done

  1. Open the resource group you created for this project.

  2. Select Delete resource group.

    delete azure resource group

To find out more about Azure maps check out the Azure Maps marketing site, the Azure Maps blog and the Azure Maps Samples site.