Tutorial: Index nested JSON blobs from Azure Storage using REST

Azure AI Search can index JSON documents and arrays in Azure Blob Storage using an indexer that knows how to read semi-structured data. Semi-structured data contains tags or markings which separate content within the data. It splits the difference between unstructured data, which must be fully indexed, and formally structured data that adheres to a data model, such as a relational database schema that can be indexed on a per-field basis.

This tutorial shows you to index nested JSON arrays. It uses a REST client and the Search REST APIs to perform the following tasks:

• Set up sample data and configure an azureblob data source
• Create an Azure AI Search index to contain searchable content
• Create and run an indexer to read the container and extract searchable content
• Search the index you just created

If you don't have an Azure subscription, create a free account before you begin.

Prerequisites

• Visual Studio Code with a REST client.

• Azure Storage

• Azure AI Search. Create or find an existing Azure AI Search resource under your current subscription.

Note

You can use the free service for this tutorial. A free search service limits you to three indexes, three indexers, and three data sources. This tutorial creates one of each. Before starting, make sure you have room on your service to accept the new resources.

Download files

Download a zip file of the sample data repository and extract the contents. Learn how.

• ny-philharmonic-free

Sample data is a single JSON file containing a JSON array and 1,521 nested JSON elements. Sample data originates from NY Philharmonic Performance History on Kaggle. We chose one JSON file to stay under the storage limits of the free tier.

Here's the first nested JSON in the file. The remainder of the file includes 1,520 other instances of concert performances.

    {
      "id": "7358870b-65c8-43d5-ab56-514bde52db88-0.1",
      "programID": "11640",
      "orchestra": "New York Philharmonic",
      "season": "2011-12",
      "concerts": [
        {
          "eventType": "Non-Subscription",
          "Location": "Manhattan, NY",
          "Venue": "Avery Fisher Hall",
          "Date": "2011-09-07T04:00:00Z",
          "Time": "7:30PM"
        },
        {
          "eventType": "Non-Subscription",
          "Location": "Manhattan, NY",
          "Venue": "Avery Fisher Hall",
          "Date": "2011-09-08T04:00:00Z",
          "Time": "7:30PM"
        }
      ],
      "works": [
        {
          "ID": "5733*",
          "composerName": "Bernstein,  Leonard",
          "workTitle": "WEST SIDE STORY (WITH FILM)",
          "conductorName": "Newman, David",
          "soloists": []
        },
        {
          "ID": "0*",
          "interval": "Intermission",
          "soloists": []
        }
      ]
    }

Upload sample data to Azure Storage

1. In Azure Storage, create a new container and name it ny-philharmonic-free.

2. Upload the sample data files.

3. Get a storage connection string so that you can formulate a connection in Azure AI Search.

   1. On the left, select Access keys.

   2. Copy the connection string for either key one or key two. The connection string is similar to the following example:

      DefaultEndpointsProtocol=https;AccountName=<your account name>;AccountKey=<your account key>;EndpointSuffix=core.windows.net
      

Copy a search service URL and API key

For this tutorial, connections to Azure AI Search require an endpoint and an API key. You can get these values from the Azure portal.

1. Sign in to the Azure portal, navigate to the search service Overview page, and copy the URL. An example endpoint might look like https://mydemo.search.windows.net.

2. Under Settings > Keys, copy an admin key. Admin keys are used to add, modify, and delete objects. There are two interchangeable admin keys. Copy either one.

   

Set up your REST file

1. Start Visual Studio Code and create a new file

2. Provide values for variables used in the request:

   @baseUrl = PUT-YOUR-SEARCH-SERVICE-ENDPOINT-HERE
   @apiKey = PUT-YOUR-ADMIN-API-KEY-HERE
   @storageConnection = PUT-YOUR-STORAGE-CONNECTION-STRING-HERE
   @blobContainer = PUT-YOUR-CONTAINER-NAME-HERE
   

3. Save the file using a .rest or .http file extension.

See Quickstart: Text search using REST if you need help with the REST client.

Create a data source

Create Data Source (REST) creates a data source connection that specifies what data to index.

### Create a data source
POST {{baseUrl}}/datasources?api-version=2024-07-01  HTTP/1.1
  Content-Type: application/json
  api-key: {{apiKey}}

    {
        "name" : "ny-philharmonic-ds",
        "description": null,
        "type": "azureblob",
        "subtype": null,
        "credentials": {
            "connectionString": "{{storageConnectionString}}"
        },
        "container": {
            "name": "{{blobContainer}}",
            "query": null
        },
        "dataChangeDetectionPolicy": null,
        "dataDeletionDetectionPolicy": null
    }

Send the request. The response should look like:

HTTP/1.1 201 Created
Transfer-Encoding: chunked
Content-Type: application/json; odata.metadata=minimal; odata.streaming=true; charset=utf-8
ETag: "0x8DC43A5FDB8448F"
Location: https://<YOUR-SEARCH-SERVICE-NAME>.search.windows.net:443/datasources('ny-philharmonic-ds')?api-version=2024-07-01
Server: Microsoft-IIS/10.0
Strict-Transport-Security: max-age=2592000, max-age=15724800; includeSubDomains
Preference-Applied: odata.include-annotations="*"
OData-Version: 4.0
request-id: 7ca53f73-1054-4959-bc1f-616148a9c74a
elapsed-time: 111
Date: Wed, 13 Mar 2024 21:38:58 GMT
Connection: close

{
  "@odata.context": "https://<YOUR-SEARCH-SERVICE-NAME>.search.windows.net/$metadata#datasources/$entity",
  "@odata.etag": "\"0x8DC43A5FDB8448F\"",
  "name": "ny-philharmonic-ds",
  "description": null,
  "type": "azureblob",
  "subtype": null,
  "credentials": {
    "connectionString": null
  },
  "container": {
    "name": "ny-philharmonic-free",
    "query": null
  },
  "dataChangeDetectionPolicy": null,
  "dataDeletionDetectionPolicy": null,
  "encryptionKey": null
}

Create an index

Create Index (REST) creates a search index on your search service. An index specifies all the parameters and their attributes.

For nested JSON, the index fields must be identical to the source fields. Currently, Azure AI Search doesn't support field mappings to nested JSON. For this reason, field names and data types must match completely. The following index aligns to the JSON elements in the raw content.

### Create an index
POST {{baseUrl}}/indexes?api-version=2024-07-01  HTTP/1.1
  Content-Type: application/json
  api-key: {{apiKey}}

    {
      "name": "ny-philharmonic-index",  
      "fields": [
        {"name": "programID", "type": "Edm.String", "key": true, "searchable": true, "retrievable": true, "filterable": true, "facetable": true, "sortable": true},
        {"name": "orchestra", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": true, "facetable": true, "sortable": true},
        {"name": "season", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": true, "facetable": true, "sortable": true},
        { "name": "concerts", "type": "Collection(Edm.ComplexType)", 
          "fields": [
            { "name": "eventType", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": false, "sortable": false, "facetable": false},
            { "name": "Location", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": true, "sortable": false, "facetable": true },
            { "name": "Venue", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": true, "sortable": false, "facetable": true },
            { "name": "Date", "type": "Edm.String", "searchable": false, "retrievable": true, "filterable": true, "sortable": false, "facetable": true },
            { "name": "Time", "type": "Edm.String", "searchable": false, "retrievable": true, "filterable": true, "sortable": false, "facetable": true }
          ]
        },
        { "name": "works", "type": "Collection(Edm.ComplexType)", 
          "fields": [
            { "name": "ID", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": false, "sortable": false, "facetable": false},
            { "name": "composerName", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": true, "sortable": false, "facetable": true },
            { "name": "workTitle", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": true, "sortable": false, "facetable": true },
            { "name": "conductorName", "type": "Edm.String", "searchable": true, "retrievable": true, "filterable": true, "sortable": false, "facetable": true },
            { "name": "soloists", "type": "Collection(Edm.String)", "searchable": true, "retrievable": true, "filterable": true, "sortable": false, "facetable": true }
          ]
        }
      ]
    }

Key points:

• You can't use field mappings to reconcile differences in field names or data types. This index schema is designed to mirror the raw content.

• Nested JSON is modeled as Collection(Edm.ComplextType). In the raw content, there are multiple concerts for each season, and multiple works for each concert. To accommodate this structure, use collections for complex types.

• In the raw content, Date and Time are strings, so the corresponding data types in the index are also strings.

Create and run an indexer

Create Indexer creates an indexer on your search service. An indexer connects to the data source, loads and indexes data, and optionally provides a schedule to automate the data refresh.

The indexer configuration includes the jsonArray parsing mode and a documentRoot.

### Create and run an indexer
POST {{baseUrl}}/indexers?api-version=2024-07-01  HTTP/1.1
  Content-Type: application/json
  api-key: {{apiKey}}

    {
      "name" : "ny-philharmonic-indexer",
      "dataSourceName" : "ny-philharmonic-ds",
      "targetIndexName" : "ny-philharmonic-index",
      "parameters" : { 
        "configuration" : { 
          "parsingMode" : "jsonArray", "documentRoot": "/programs"}
        },
      "fieldMappings" : [ 
      ]
    }

Key points:

• The raw content file contains a JSON array ("programs") with 1,526 nested JSON structures. Set parsingMode to jsonArray to tell the indexer that each blob contains a JSON array. Because the nested JSON starts one level down, set documentRoot to /programs.

• The indexer runs for several minutes. Wait for indexer execution to complete before running any queries.

Run queries

You can start searching as soon as the first document is loaded.

### Query the index
POST {{baseUrl}}/indexes/ny-philharmonic-index/docs/search?api-version=2024-07-01  HTTP/1.1
  Content-Type: application/json
  api-key: {{apiKey}}
  
  {
    "search": "*",
    "count": true
  }

Send the request. This is an unspecified full text search query that returns all of the fields marked as retrievable in the index, along with a document count. The response should look like:

HTTP/1.1 200 OK
Transfer-Encoding: chunked
Content-Type: application/json; odata.metadata=minimal; odata.streaming=true; charset=utf-8
Content-Encoding: gzip
Vary: Accept-Encoding
Server: Microsoft-IIS/10.0
Strict-Transport-Security: max-age=2592000, max-age=15724800; includeSubDomains
Preference-Applied: odata.include-annotations="*"
OData-Version: 4.0
request-id: a95c4021-f7b4-450b-ba55-596e59ecb6ec
elapsed-time: 106
Date: Wed, 13 Mar 2024 22:09:59 GMT
Connection: close

{
  "@odata.context": "https://<YOUR-SEARCH-SERVICE-NAME>.search.windows.net/indexes('ny-philharmonic-index')/$metadata#docs(*)",
  "@odata.count": 1521,
  "@search.nextPageParameters": {
    "search": "*",
    "count": true,
    "skip": 50
  },
  "value": [
  ],
  "@odata.nextLink": "https://<YOUR-SEARCH-SERVICE-NAME>.search.windows.net/indexes/ny-philharmonic-index/docs/search?api-version=2024-07-01"
}

Add a search parameter to search on a string. Add a select parameter to limit the results to fewer fields. Add a filter to further narrow the search.

### Query the index
POST {{baseUrl}}/indexes/ny-philharmonic-index/docs/search?api-version=2024-07-01  HTTP/1.1
  Content-Type: application/json
  api-key: {{apiKey}}
  
  {
    "search": "puccini",
    "count": true,
    "select": "season, concerts/Date, works/composerName, works/workTitle",
    "filter": "season gt '2015-16'"
  }

Two documents are returned in the response.

For filters, you can also use Logical operators (and, or, not) and comparison operators (eq, ne, gt, lt, ge, le). String comparisons are case-sensitive. For more information and examples, see Create a query.

Note

The $filter parameter only works on fields that were marked filterable at the creation of your index.

Reset and rerun

Indexers can be reset, clearing execution history, which allows a full rerun. The following GET requests are for reset, followed by rerun.

### Reset the indexer
POST {{baseUrl}}/indexers/ny-philharmonic-indexer/reset?api-version=2024-07-01  HTTP/1.1
  api-key: {{apiKey}}

### Run the indexer
POST {{baseUrl}}/indexers/ny-philharmonic-indexer/run?api-version=2024-07-01  HTTP/1.1
  api-key: {{apiKey}}

### Check indexer status 
GET {{baseUrl}}/indexers/ny-philharmonic-indexer/status?api-version=2024-07-01  HTTP/1.1
  api-key: {{apiKey}}

Clean up resources

When you're working in your own subscription, at the end of a project, it's a good idea to remove the resources that you no longer need. Resources left running can cost you money. You can delete resources individually or delete the resource group to delete the entire set of resources.

You can use the portal to delete indexes, indexers, and data sources.

Next steps

Now that you're familiar with the basics of Azure Blob indexing, let's take a closer look at indexer configuration for JSON blobs in Azure Storage.

Configure JSON blob indexing