Class CosmosContainer

java.lang.Object
com.azure.cosmos.CosmosContainer

public class CosmosContainer extends Object
Provides synchronous methods for reading, deleting, and replacing existing Containers Provides methods for interacting with child resources (Items, Scripts, Conflicts)
  • Method Details

    • getId

      public String getId()
      Gets the current container id.
      Returns:
      the container id.
    • read

      public CosmosContainerResponse read()
      Reads the current container.
      Returns:
      the Cosmos container response with the read container.
    • read

      Reads the current container while specifying additional options such as If-Match.
      Parameters:
      options - the options.
      Returns:
      the Cosmos container response.
    • delete

      Deletes the current Cosmos container while specifying additional options such as If-Match.
      Parameters:
      options - the options.
      Returns:
      the cosmos container response.
    • delete

      public CosmosContainerResponse delete()
      Deletes the current cosmos container.
      Returns:
      the cosmos container response.
    • replace

      public CosmosContainerResponse replace(CosmosContainerProperties containerProperties)
      Replaces the current container properties.
      Parameters:
      containerProperties - the container properties.
      Returns:
      the cosmos container response.
    • replace

      Replaces the current container properties while specifying additional options such as If-Match.
      Parameters:
      containerProperties - the container properties.
      options - the options.
      Returns:
      the cosmos container response.
    • replaceThroughput

      public ThroughputResponse replaceThroughput(ThroughputProperties throughputProperties)
      Sets the throughput for the current container.
       ThroughputProperties throughputProperties =
           ThroughputProperties.createAutoscaledThroughput(1000);
       try {
           ThroughputResponse throughputResponse =
               cosmosContainer.replaceThroughput(throughputProperties);
           System.out.println(throughputResponse);
       } catch (CosmosException ce) {
           ce.printStackTrace();
       } catch (Exception e) {
           e.printStackTrace();
       }
       
      Parameters:
      throughputProperties - the throughput properties (Optional).
      Returns:
      the throughput response.
    • readThroughput

      public ThroughputResponse readThroughput()
      Gets the throughput for the current container.
       try {
           ThroughputResponse throughputResponse = cosmosContainer.readThroughput();
           System.out.println(throughputResponse);
       } catch (CosmosException ce) {
           ce.printStackTrace();
       } catch (Exception e) {
           e.printStackTrace();
       }
       
      Returns:
      the throughput response.
    • createItem

      public <T> CosmosItemResponse<T> createItem(T item)
      Creates a new item synchronously and returns its respective Cosmos item response.
      Type Parameters:
      T - the type parameter
      Parameters:
      item - the item
      Returns:
      the Cosmos item response
    • createItem

      public <T> CosmosItemResponse<T> createItem(T item, PartitionKey partitionKey, CosmosItemRequestOptions options)
      Creates a new item synchronously and returns its respective Cosmos item response while specifying additional options.
      Type Parameters:
      T - the type parameter.
      Parameters:
      item - the item.
      partitionKey - the partition key.
      options - the options.
      Returns:
      the Cosmos item response.
    • createItem

      public <T> CosmosItemResponse<T> createItem(T item, CosmosItemRequestOptions options)
      Creates a new item synchronously and returns its respective Cosmos item response while specifying additional options.

      The partition key value will be automatically extracted from the item's content.

      Type Parameters:
      T - the type parameter.
      Parameters:
      item - the item.
      options - the options.
      Returns:
      the cosmos item response.
    • upsertItem

      public <T> CosmosItemResponse<T> upsertItem(T item)
      Upserts an Cosmos item in the current container.
      Type Parameters:
      T - the type parameter.
      Parameters:
      item - the item.
      Returns:
      the Cosmos item response.
    • upsertItem

      public <T> CosmosItemResponse<T> upsertItem(T item, CosmosItemRequestOptions options)
      Upserts a item Cosmos sync item while specifying additional options.
      Type Parameters:
      T - the type parameter.
      Parameters:
      item - the item.
      options - the options.
      Returns:
      the Cosmos item response.
    • upsertItem

      public <T> CosmosItemResponse<T> upsertItem(T item, PartitionKey partitionKey, CosmosItemRequestOptions options)
      Upserts an item Cosmos sync item while specifying additional options.
      Type Parameters:
      T - the type parameter.
      Parameters:
      item - the item.
      partitionKey - the partitionKey.
      options - the options.
      Returns:
      the Cosmos item response.
    • queryItems

      public <T> CosmosPagedIterable<T> queryItems(String query, CosmosQueryRequestOptions options, Class<T> classType)
      Query items in the current container returning the results as CosmosPagedIterable.
       CosmosQueryRequestOptions options = new CosmosQueryRequestOptions();
       String query = "SELECT * FROM Passenger WHERE Passenger.departure IN ('SEA', 'IND')";
       Iterable<FeedResponse<Passenger>> queryResponses = cosmosContainer.queryItems(query, options, Passenger.class)
           .iterableByPage();
      
       for (FeedResponse<Passenger> feedResponse : queryResponses) {
           List<Passenger> results = feedResponse.getResults();
           System.out.println(results);
       }
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      query - the query.
      options - the options.
      classType - the class type.
      Returns:
      the CosmosPagedIterable.
    • queryItems

      public <T> CosmosPagedIterable<T> queryItems(SqlQuerySpec querySpec, CosmosQueryRequestOptions options, Class<T> classType)
      Query items in the current container returning the results as CosmosPagedIterable.
       CosmosQueryRequestOptions options = new CosmosQueryRequestOptions();
       String query = "SELECT * FROM Passenger p WHERE (p.departure = @departure)";
       List<SqlParameter> parameters = Collections.singletonList(new SqlParameter("@departure", "SEA"));
       SqlQuerySpec sqlQuerySpec = new SqlQuerySpec(query, parameters);
      
       Iterable<FeedResponse<Passenger>> queryResponses = cosmosContainer.queryItems(sqlQuerySpec, options, Passenger.class)
           .iterableByPage();
      
       for (FeedResponse<Passenger> feedResponse : queryResponses) {
           List<Passenger> results = feedResponse.getResults();
           System.out.println(results);
       }
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      querySpec - the query spec.
      options - the options.
      classType - the class type.
      Returns:
      the CosmosPagedIterable.
    • queryChangeFeed

      public <T> CosmosPagedIterable<T> queryChangeFeed(CosmosChangeFeedRequestOptions options, Class<T> classType)
      Query for items in the change feed of the current container using the CosmosChangeFeedRequestOptions.
       CosmosChangeFeedRequestOptions options = CosmosChangeFeedRequestOptions
           .createForProcessingFromNow(FeedRange.forFullRange())
           .allVersionsAndDeletes();
      
       Iterable<FeedResponse<Passenger>> feedResponses = cosmosContainer.queryChangeFeed(options, Passenger.class)
           .iterableByPage();
       for (FeedResponse<Passenger> feedResponse : feedResponses) {
           List<Passenger> results = feedResponse.getResults();
           System.out.println(results);
       }
       

      The next page can be retrieved by calling queryChangeFeed again with a new instance of CosmosChangeFeedRequestOptions created from the continuation token of the previously returned FeedResponse instance.

      Type Parameters:
      T - the type parameter.
      Parameters:
      options - the change feed request options.
      classType - the class type.
      Returns:
      a CosmosPagedFlux containing one feed response page
    • readMany

      public <T> FeedResponse<T> readMany(List<CosmosItemIdentity> itemIdentityList, Class<T> classType)
      Reads many documents. Useful for reading many documents with a particular id and partition key in a single request. If any document from the list is missing, no exception will be thrown.
       List<CosmosItemIdentity> itemIdentityList = new ArrayList<>();
       itemIdentityList.add(new CosmosItemIdentity(new PartitionKey(passenger1Id), passenger1Id));
       itemIdentityList.add(new CosmosItemIdentity(new PartitionKey(passenger2Id), passenger2Id));
      
       FeedResponse<Passenger> passengerFeedResponse = cosmosContainer.readMany(itemIdentityList, Passenger.class);
       for (Passenger passenger : passengerFeedResponse.getResults()) {
           System.out.println(passenger);
       }
       
      Type Parameters:
      T - the type parameter
      Parameters:
      itemIdentityList - CosmosItem id and partition key tuple of items that that needs to be read
      classType - class type
      Returns:
      a Mono with feed response of cosmos items
    • readMany

      public <T> FeedResponse<T> readMany(List<CosmosItemIdentity> itemIdentityList, String sessionToken, Class<T> classType)
      Reads many documents. Useful for reading many documents with a particular id and partition key in a single request. If any document from the list is missing, no exception will be thrown.
       List<CosmosItemIdentity> itemIdentityList = new ArrayList<>();
       itemIdentityList.add(new CosmosItemIdentity(new PartitionKey(passenger1Id), passenger1Id));
       itemIdentityList.add(new CosmosItemIdentity(new PartitionKey(passenger2Id), passenger2Id));
      
       FeedResponse<Passenger> passengerFeedResponse = cosmosContainer.readMany(itemIdentityList, Passenger.class);
       for (Passenger passenger : passengerFeedResponse.getResults()) {
           System.out.println(passenger);
       }
       
      Type Parameters:
      T - the type parameter
      Parameters:
      itemIdentityList - CosmosItem id and partition key tuple of items that that needs to be read
      sessionToken - the optional Session token - null if the read can be made without specific session token
      classType - class type
      Returns:
      a Mono with feed response of cosmos items
    • readMany

      public <T> FeedResponse<T> readMany(List<CosmosItemIdentity> itemIdentityList, CosmosReadManyRequestOptions options, Class<T> classType)
      Reads many documents. Useful for reading many documents with a particular id and partition key in a single request. If any document from the list is missing, no exception will be thrown.
       List<CosmosItemIdentity> itemIdentityList = new ArrayList<>();
       itemIdentityList.add(new CosmosItemIdentity(new PartitionKey(passenger1Id), passenger1Id));
       itemIdentityList.add(new CosmosItemIdentity(new PartitionKey(passenger2Id), passenger2Id));
      
       FeedResponse<Passenger> passengerFeedResponse = cosmosContainer.readMany(itemIdentityList, Passenger.class);
       for (Passenger passenger : passengerFeedResponse.getResults()) {
           System.out.println(passenger);
       }
       
      Type Parameters:
      T - the type parameter
      Parameters:
      itemIdentityList - CosmosItem id and partition key tuple of items that that needs to be read
      options - the optional request options
      classType - class type
      Returns:
      a Mono with feed response of cosmos items
    • readAllItems

      public <T> CosmosPagedIterable<T> readAllItems(PartitionKey partitionKey, Class<T> classType)
      Reads all the items of a logical partition returning the results as CosmosPagedIterable.
       CosmosPagedIterable<Passenger> passengers = cosmosContainer
           .readAllItems(new PartitionKey(partitionKey), Passenger.class);
      
       passengers.forEach(passenger -> {
           System.out.println(passenger);
       });
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      partitionKey - the partition key value of the documents that need to be read
      classType - the class type.
      Returns:
      the CosmosPagedIterable.
    • readAllItems

      public <T> CosmosPagedIterable<T> readAllItems(PartitionKey partitionKey, CosmosQueryRequestOptions options, Class<T> classType)
      Reads all the items of a logical partition returning the results as CosmosPagedIterable.
       CosmosPagedIterable<Passenger> passengers = cosmosContainer
           .readAllItems(new PartitionKey(partitionKey), Passenger.class);
      
       passengers.forEach(passenger -> {
           System.out.println(passenger);
       });
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      partitionKey - the partition key value of the documents that need to be read
      options - the feed options.
      classType - the class type.
      Returns:
      the CosmosPagedIterable.
    • readItem

      public <T> CosmosItemResponse<T> readItem(String itemId, PartitionKey partitionKey, Class<T> itemType)
      Reads an item in the current container.
      This operation is used to retrieve a single item from a container based on its unique identifier (ID) and partition key. The readItem operation provides direct access to a specific item using its unique identifier, which consists of the item's ID and the partition key value. This operation is efficient for retrieving a known item by its ID and partition key without the need for complex querying.
       // Read an item
       try {
           CosmosItemResponse<Passenger> response = cosmosContainer.readItem(
               passenger.getId(),
               new PartitionKey(passenger.getId()),
               Passenger.class
           );
           Passenger passengerItem = response.getItem();
       } catch (NotFoundException e) {
           // catch exception if item not found
           System.out.printf("Passenger with item id %s not found\n",
               passenger.getId());
       } catch (Exception e) {
           System.out.println(e.getMessage());
       }
      
       // ...
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      itemId - the item id.
      partitionKey - the partition key.
      itemType - the class type of item.
      Returns:
      the Cosmos item response.
      Throws:
      com.azure.cosmos.implementation.NotFoundException - if document with the specified itemId does not exist
    • readItem

      public <T> CosmosItemResponse<T> readItem(String itemId, PartitionKey partitionKey, CosmosItemRequestOptions options, Class<T> itemType)
      Reads an item in the current container while specifying additional options.
      This operation is used to retrieve a single item from a container based on its unique identifier (ID) and partition key. The readItem operation provides direct access to a specific item using its unique identifier, which consists of the item's ID and the partition key value. This operation is efficient for retrieving a known item by its ID and partition key without the need for complex querying.
      Type Parameters:
      T - the type parameter.
      Parameters:
      itemId - the item id.
      partitionKey - the partition key.
      options - the options (Optional).
      itemType - the class type of item.
      Returns:
      the Cosmos item response.
      Throws:
      com.azure.cosmos.implementation.NotFoundException - if document with the specified itemId does not exist
    • replaceItem

      public <T> CosmosItemResponse<T> replaceItem(T item, String itemId, PartitionKey partitionKey, CosmosItemRequestOptions options)
      Replaces an existing item in a container with a new item. It performs a complete replacement of the item, replacing all its properties with the properties of the new item
       CosmosItemResponse<Passenger> response = cosmosContainer.replaceItem(
           newPassenger,
           oldPassenger.getId(),
           new PartitionKey(oldPassenger.getId()),
           new CosmosItemRequestOptions());
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      item - the item.
      itemId - the item id.
      partitionKey - the partition key.
      options - the options.
      Returns:
      the Cosmos item response.
    • patchItem

      public <T> CosmosItemResponse<T> patchItem(String itemId, PartitionKey partitionKey, CosmosPatchOperations cosmosPatchOperations, Class<T> itemType)
      Run partial update that modifies specific properties or fields of the item without replacing the entire item.
       CosmosPatchOperations cosmosPatchOperations = CosmosPatchOperations.create();
      
       cosmosPatchOperations
           .add("/departure", "SEA")
           .increment("/trips", 1);
      
       CosmosItemResponse<Passenger> response = cosmosContainer.patchItem(
           passenger.getId(),
           new PartitionKey(passenger.getId()),
           cosmosPatchOperations,
           Passenger.class);
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      itemId - the item id.
      partitionKey - the partition key.
      cosmosPatchOperations - Represents a container having list of operations to be sequentially applied to the referred Cosmos item.
      itemType - the item type.
      Returns:
      the Cosmos item resource response with the patched item or an exception.
    • patchItem

      public <T> CosmosItemResponse<T> patchItem(String itemId, PartitionKey partitionKey, CosmosPatchOperations cosmosPatchOperations, CosmosPatchItemRequestOptions options, Class<T> itemType)
      Run partial update that modifies specific properties or fields of the item without replacing the entire item.
       CosmosPatchOperations cosmosPatchOperations = CosmosPatchOperations.create();
      
       cosmosPatchOperations
           .add("/departure", "SEA")
           .increment("/trips", 1);
      
       CosmosItemResponse<Passenger> response = cosmosContainer.patchItem(
           passenger.getId(),
           new PartitionKey(passenger.getId()),
           cosmosPatchOperations,
           Passenger.class);
       
      Type Parameters:
      T - the type parameter.
      Parameters:
      itemId - the item id.
      partitionKey - the partition key.
      cosmosPatchOperations - Represents a container having list of operations to be sequentially applied to the referred Cosmos item.
      options - the request options.
      itemType - the item type.
      Returns:
      the Cosmos item resource response with the patched item or an exception.
    • deleteItem

      public CosmosItemResponse<Object> deleteItem(String itemId, PartitionKey partitionKey, CosmosItemRequestOptions options)
      Deletes an item in the current container.
       try {
           CosmosItemRequestOptions options = new CosmosItemRequestOptions();
           CosmosItemResponse<Object> deleteItemResponse = cosmosContainer.deleteItem(
               passenger.getId(),
               new PartitionKey(passenger.getId()),
               options
           );
           System.out.println(deleteItemResponse);
       } catch (NotFoundException e) {
           // catch exception if item not found
           System.out.printf("Passenger with item id %s not found\n",
               passenger.getId());
       } catch (Exception e) {
           System.out.println(e.getMessage());
       }
       
      Parameters:
      itemId - the item id.
      partitionKey - the partition key.
      options - the options.
      Returns:
      the Cosmos item response.
    • deleteAllItemsByPartitionKey

      public CosmosItemResponse<Object> deleteAllItemsByPartitionKey(PartitionKey partitionKey, CosmosItemRequestOptions options)
      Deletes all items in the Container with the specified partitionKey value. Starts an asynchronous Cosmos DB background operation which deletes all items in the Container with the specified value. The asynchronous Cosmos DB background operation runs using a percentage of user RUs.
      Parameters:
      partitionKey - the partition key.
      options - the options.
      Returns:
      the Cosmos item response
    • deleteItem

      public <T> CosmosItemResponse<Object> deleteItem(T item, CosmosItemRequestOptions options)
      Deletes an item in the current container.
      Type Parameters:
      T - the type parameter.
      Parameters:
      item - the item to be deleted.
      options - the options.
      Returns:
      the Cosmos item response.
    • executeCosmosBatch

      public CosmosBatchResponse executeCosmosBatch(CosmosBatch cosmosBatch)
      Executes the transactional batch.
      Parameters:
      cosmosBatch - Batch having list of operation and partition key which will be executed by this container.
      Returns:
      A TransactionalBatchResponse which contains details of execution of the transactional batch.

      If the transactional batch executes successfully, the value returned by CosmosBatchResponse.getStatusCode() on the response returned will be set to 200}.

      If an operation within the transactional batch fails during execution, no changes from the batch will be committed and the status of the failing operation is made available by CosmosBatchResponse.getStatusCode() or by the exception. To obtain information about the operations that failed in case of some user error like conflict, not found etc, the response can be enumerated. This returns CosmosBatchOperationResult instances corresponding to each operation in the transactional batch in the order they were added to the transactional batch. For a result corresponding to an operation within the transactional batch, use CosmosBatchOperationResult.getStatusCode() to access the status of the operation. If the operation was not executed or it was aborted due to the failure of another operation within the transactional batch, the value of this field will be 424; for the operation that caused the batch to abort, the value of this field will indicate the cause of failure.

      If there are issues such as request timeouts, Gone, session not available, network failure or if the service somehow returns 5xx then this will throw an exception instead of returning a CosmosBatchResponse.

      Use CosmosBatchResponse.isSuccessStatusCode() on the response returned to ensure that the transactional batch succeeded.

    • executeCosmosBatch

      public CosmosBatchResponse executeCosmosBatch(CosmosBatch cosmosBatch, CosmosBatchRequestOptions requestOptions)
      Executes the transactional batch.
      Parameters:
      cosmosBatch - Batch having list of operation and partition key which will be executed by this container.
      requestOptions - Options that apply specifically to batch request.
      Returns:
      A CosmosBatchResponse which contains details of execution of the transactional batch.

      If the transactional batch executes successfully, the value returned by CosmosBatchResponse.getStatusCode() on the response returned will be set to 200}.

      If an operation within the transactional batch fails during execution, no changes from the batch will be committed and the status of the failing operation is made available by CosmosBatchResponse.getStatusCode() or by the exception. To obtain information about the operations that failed in case of some user error like conflict, not found etc, the response can be enumerated. This returns CosmosBatchOperationResult instances corresponding to each operation in the transactional batch in the order they were added to the transactional batch. For a result corresponding to an operation within the transactional batch, use CosmosBatchOperationResult.getStatusCode() to access the status of the operation. If the operation was not executed or it was aborted due to the failure of another operation within the transactional batch, the value of this field will be 424; for the operation that caused the batch to abort, the value of this field will indicate the cause of failure.

      If there are issues such as request timeouts, Gone, session not available, network failure or if the service somehow returns 5xx then this will throw an exception instead of returning a CosmosBatchResponse.

      Use CosmosBatchResponse.isSuccessStatusCode() on the response returned to ensure that the transactional batch succeeded.

    • executeBulkOperations

      public <TContext> Iterable<CosmosBulkOperationResponse<TContext>> executeBulkOperations(Iterable<CosmosItemOperation> operations)
      Executes list of operations in Bulk.
      Type Parameters:
      TContext - The context for the bulk processing.
      Parameters:
      operations - list of operation which will be executed by this container.
      Returns:
      An Iterable of CosmosBulkOperationResponse which contains operation and it's response or exception.

      To create a operation which can be executed here, use CosmosBulkOperations. For eg. for a upsert operation use CosmosBulkOperations.getUpsertItemOperation(Object, PartitionKey)

      We can get the corresponding operation using CosmosBulkOperationResponse.getOperation() and it's response using CosmosBulkOperationResponse.getResponse(). If the operation was executed successfully, the value returned by CosmosBulkItemResponse.isSuccessStatusCode() will be true. To get actual status use CosmosBulkItemResponse.getStatusCode().

      To check if the operation had any exception, use CosmosBulkOperationResponse.getException() to get the exception.
    • executeBulkOperations

      public <TContext> Iterable<CosmosBulkOperationResponse<TContext>> executeBulkOperations(Iterable<CosmosItemOperation> operations, CosmosBulkExecutionOptions bulkOptions)
      Executes list of operations in Bulk.
      Type Parameters:
      TContext - The context for the bulk processing.
      Parameters:
      operations - list of operation which will be executed by this container.
      bulkOptions - Options that apply for this Bulk request which specifies options regarding execution like concurrency, batching size, interval and context.
      Returns:
      An Iterable of CosmosBulkOperationResponse which contains operation and it's response or exception.

      To create a operation which can be executed here, use CosmosBulkOperations. For eg. for a upsert operation use CosmosBulkOperations.getUpsertItemOperation(Object, PartitionKey)

      We can get the corresponding operation using CosmosBulkOperationResponse.getOperation() and it's response using CosmosBulkOperationResponse.getResponse(). If the operation was executed successfully, the value returned by CosmosBulkItemResponse.isSuccessStatusCode() will be true. To get actual status use CosmosBulkItemResponse.getStatusCode().

      To check if the operation had any exception, use CosmosBulkOperationResponse.getException() to get the exception.
    • getScripts

      public CosmosScripts getScripts()
      Gets the Cosmos scripts using the current container as context.
      Returns:
      the Cosmos sync scripts.
    • getFeedRanges

      public List<FeedRange> getFeedRanges()
      Obtains a list of FeedRange that can be used to parallelize Feed operations.
       List<FeedRange> feedRanges = cosmosContainer.getFeedRanges();
       for (FeedRange feedRange : feedRanges) {
           System.out.println("Feed range: " + feedRange);
       }
       
      Returns:
      An unmodifiable list of FeedRange
    • enableLocalThroughputControlGroup

      public void enableLocalThroughputControlGroup(ThroughputControlGroupConfig groupConfig)
      Enable the throughput control group with local control mode.
       ThroughputControlGroupConfig groupConfig =
           new ThroughputControlGroupConfigBuilder()
               .groupName("localControlGroup")
               .targetThroughputThreshold(0.1)
               .build();
      
       container.enableLocalThroughputControlGroup(groupConfig);
       
      Parameters:
      groupConfig - A GlobalThroughputControlConfig.
    • enableGlobalThroughputControlGroup

      public void enableGlobalThroughputControlGroup(ThroughputControlGroupConfig groupConfig, GlobalThroughputControlConfig globalControlConfig)
      Enable the throughput control group with global control mode. The defined throughput limit will be shared across different clients.
       ThroughputControlGroupConfig groupConfig =
           new ThroughputControlGroupConfigBuilder()
               .groupName("localControlGroup")
               .targetThroughputThreshold(0.1)
               .build();
      
       GlobalThroughputControlConfig globalControlConfig =
           this.client.createGlobalThroughputControlConfigBuilder(database.getId(), container.getId())
               .setControlItemRenewInterval(Duration.ofSeconds(5))
               .setControlItemExpireInterval(Duration.ofSeconds(10))
               .build();
      
       container.enableGlobalThroughputControlGroup(groupConfig, globalControlConfig);
       
      Parameters:
      groupConfig - The throughput control group configuration, see GlobalThroughputControlGroup.
      globalControlConfig - The global throughput control configuration, see GlobalThroughputControlConfig.
    • openConnectionsAndInitCaches

      @Deprecated public void openConnectionsAndInitCaches()
      Initializes the container by warming up the caches and connections for the current read region.


      NOTE: This API ideally should be called only once during application initialization before any workload.
      In case of any transient error, caller should consume the error and continue the regular workload.

    • openConnectionsAndInitCaches

      @Deprecated public void openConnectionsAndInitCaches(int numProactiveConnectionRegions)
      Initializes the container by warming up the caches and connections to a specified no. of proactive connection regions. For more information about proactive connection regions, see CosmosContainerProactiveInitConfig.getProactiveConnectionRegionsCount()


      NOTE: This API ideally should be called only once during application initialization before any workload.
      In case of any transient error, caller should consume the error and continue the regular workload.

      Parameters:
      numProactiveConnectionRegions - the no of regions to proactively connect to from the preferred list of regions