AWS services or capabilities described in AWS Documentation may vary by region/location. Click Getting Started with Amazon AWS to see specific differences applicable to the China (Beijing) Region.
The CreateTable operation adds a new table to your account. In an Amazon Web
Services account, table names must be unique within each Region. That is, you can
have two tables with same name if you create the tables in different Regions.
CreateTable is an asynchronous operation. Upon receiving a CreateTable
request, DynamoDB immediately returns a response with a TableStatus of CREATING.
After the table is created, DynamoDB sets the TableStatus to ACTIVE.
You can perform read and write operations only on an ACTIVE table.
You can optionally define secondary indexes on the new table, as part of the CreateTable
operation. If you want to create multiple tables with secondary indexes on them, you
must create the tables sequentially. Only one table with secondary indexes can be
in the CREATING state at any given time.
You can use the DescribeTable action to check the table status.
For .NET Core this operation is only available in asynchronous form. Please refer to CreateTableAsync.
Namespace: Amazon.DynamoDBv2
Assembly: AWSSDK.DynamoDBv2.dll
Version: 3.x.y.z
public virtual CreateTableResponse CreateTable( CreateTableRequest request )
Container for the necessary parameters to execute the CreateTable service method.
| Exception | Condition |
|---|---|
| InternalServerErrorException | An error occurred on the server side. |
| LimitExceededException | There is no limit to the number of daily on-demand backups that can be taken. For most purposes, up to 500 simultaneous table operations are allowed per account. These operations include CreateTable, UpdateTable, DeleteTable,UpdateTimeToLive, RestoreTableFromBackup, and RestoreTableToPointInTime. When you are creating a table with one or more secondary indexes, you can have up to 250 such requests running at a time. However, if the table or index specifications are complex, then DynamoDB might temporarily reduce the number of concurrent operations. When importing into DynamoDB, up to 50 simultaneous import table operations are allowed per account. There is a soft account quota of 2,500 tables. GetRecords was called with a value of more than 1000 for the limit request parameter. More than 2 processes are reading from the same streams shard at the same time. Exceeding this limit may result in request throttling. |
| ResourceInUseException | The operation conflicts with the resource's availability. For example: You attempted to recreate an existing table. You tried to delete a table currently in the CREATING state. You tried to update a resource that was already being updated. When appropriate, wait for the ongoing update to complete and attempt the request again. |
This example shows how to create a new table with a single hash-key component.
// Create a client
AmazonDynamoDBClient client = new AmazonDynamoDBClient();
// Define table schema:
// Table has a hash-key "Author" and a range-key "Title"
List<KeySchemaElement> schema = new List<KeySchemaElement>
{
new KeySchemaElement
{
AttributeName = "Author", KeyType = "HASH"
},
new KeySchemaElement
{
AttributeName = "Title", KeyType = "RANGE"
}
};
// Define key attributes:
// The key attributes "Author" and "Title" are string types
List<AttributeDefinition> definitions = new List<AttributeDefinition>
{
new AttributeDefinition
{
AttributeName = "Author", AttributeType = "S"
},
new AttributeDefinition
{
AttributeName = "Title", AttributeType = "S"
}
};
// Define table throughput:
// Table has capacity of 20 reads and 50 writes
ProvisionedThroughput throughput = new ProvisionedThroughput
{
ReadCapacityUnits = 20,
WriteCapacityUnits = 50
};
// Configure the CreateTable request
CreateTableRequest request = new CreateTableRequest
{
TableName = "SampleTable",
KeySchema = schema,
ProvisionedThroughput = throughput,
AttributeDefinitions = definitions
};
// View new table properties
TableDescription tableDescription = client.CreateTable(request).TableDescription;
Console.WriteLine("Table name: {0}", tableDescription.TableName);
Console.WriteLine("Creation time: {0}", tableDescription.CreationDateTime);
Console.WriteLine("Item count: {0}", tableDescription.ItemCount);
Console.WriteLine("Table size (bytes): {0}", tableDescription.TableSizeBytes);
Console.WriteLine("Table status: {0}", tableDescription.TableStatus);
// List table key schema
List<KeySchemaElement> tableSchema = tableDescription.KeySchema;
for (int i = 0; i < tableSchema.Count; i++)
{
KeySchemaElement element = tableSchema[i];
Console.WriteLine("Key: Name = {0}, KeyType = {1}",
element.AttributeName, element.KeyType);
}
// List attribute definitions
List<AttributeDefinition> attributeDefinitions = tableDescription.AttributeDefinitions;
for (int i = 0; i < attributeDefinitions.Count; i++)
{
AttributeDefinition definition = attributeDefinitions[i];
Console.WriteLine("Attribute: Name = {0}, Type = {1}",
definition.AttributeName, definition.AttributeType);
}
Console.WriteLine("Throughput: Reads = {0}, Writes = {1}",
tableDescription.ProvisionedThroughput.ReadCapacityUnits,
tableDescription.ProvisionedThroughput.WriteCapacityUnits);
This example shows how to create a table similar to the previous sample, but with Local Secondary Indexes configured.
The new table will have two indexes: YearsIndex and SettingsIndex.
// Create a client
AmazonDynamoDBClient client = new AmazonDynamoDBClient();
// Define table schema:
// Table has a hash-key "Author" and a range-key "Title"
List<KeySchemaElement> schema = new List<KeySchemaElement>
{
new KeySchemaElement
{
AttributeName = "Author", KeyType = "HASH"
},
new KeySchemaElement
{
AttributeName = "Title", KeyType = "RANGE"
}
};
// Define local secondary indexes:
// Table has two indexes, one on "Year" and the other on "Setting"
List<LocalSecondaryIndex> indexes = new List<LocalSecondaryIndex>
{
new LocalSecondaryIndex
{
IndexName = "YearsIndex",
KeySchema = new List<KeySchemaElement>
{
// Hash key must match table hash key
new KeySchemaElement { AttributeName = "Author", KeyType = "HASH" },
// Secondary index on "Year" attribute
new KeySchemaElement { AttributeName = "Year", KeyType = "RANGE" }
},
// Projection type is set to ALL, all attributes returned for this index
Projection = new Projection
{
ProjectionType = "ALL"
}
},
new LocalSecondaryIndex
{
IndexName = "SettingsIndex",
KeySchema = new List<KeySchemaElement>
{
// Hash key must match table hash key
new KeySchemaElement { AttributeName = "Author", KeyType = "HASH" },
// Secondary index on "Setting" attribute
new KeySchemaElement { AttributeName = "Setting", KeyType = "RANGE" }
},
// Projection type is set to INCLUDE, the specified attributes + keys are returned
Projection = new Projection
{
ProjectionType = "INCLUDE",
NonKeyAttributes = new List<string>
{
"Pages", "Genres"
}
}
}
};
// Define key attributes:
// The key attributes "Author" and "Title" are string types.
// The local secondary index attributes are "Year" (numerical) and "Setting" (string).
List<AttributeDefinition> definitions = new List<AttributeDefinition>
{
new AttributeDefinition
{
AttributeName = "Author", AttributeType = "S"
},
new AttributeDefinition
{
AttributeName = "Title", AttributeType = "S"
},
new AttributeDefinition
{
AttributeName = "Year", AttributeType = "N"
},
new AttributeDefinition
{
AttributeName = "Setting", AttributeType = "S"
}
};
// Define table throughput:
// Table has capacity of 20 reads and 50 writes
ProvisionedThroughput throughput = new ProvisionedThroughput
{
ReadCapacityUnits = 20,
WriteCapacityUnits = 50
};
// Configure the CreateTable request
CreateTableRequest request = new CreateTableRequest
{
TableName = "SampleTable",
KeySchema = schema,
ProvisionedThroughput = throughput,
AttributeDefinitions = definitions,
LocalSecondaryIndexes = indexes
};
// View new table properties
TableDescription tableDescription = client.CreateTable(request).TableDescription;
Console.WriteLine("Table name: {0}", tableDescription.TableName);
Console.WriteLine("Creation time: {0}", tableDescription.CreationDateTime);
Console.WriteLine("Item count: {0}", tableDescription.ItemCount);
Console.WriteLine("Table size (bytes): {0}", tableDescription.TableSizeBytes);
Console.WriteLine("Table status: {0}", tableDescription.TableStatus);
// List table key schema
List<KeySchemaElement> tableSchema = tableDescription.KeySchema;
for (int i = 0; i < tableSchema.Count; i++)
{
KeySchemaElement element = tableSchema[i];
Console.WriteLine("Key: Name = {0}, KeyType = {1}",
element.AttributeName, element.KeyType);
}
// List attribute definitions
List<AttributeDefinition> attributeDefinitions = tableDescription.AttributeDefinitions;
for (int i = 0; i < attributeDefinitions.Count; i++)
{
AttributeDefinition definition = attributeDefinitions[i];
Console.WriteLine("Attribute: Name = {0}, Type = {1}",
definition.AttributeName, definition.AttributeType);
}
Console.WriteLine("Throughput: Reads = {0}, Writes = {1}",
tableDescription.ProvisionedThroughput.ReadCapacityUnits,
tableDescription.ProvisionedThroughput.WriteCapacityUnits);
.NET Framework:
Supported in: 4.5 and newer, 3.5