Metadata-Version: 2.1
Name: aws-cdk.aws-glue
Version: 1.121.0
Summary: The CDK Construct Library for AWS::Glue
Home-page: https://github.com/aws/aws-cdk
Author: Amazon Web Services
License: Apache-2.0
Project-URL: Source, https://github.com/aws/aws-cdk.git
Platform: UNKNOWN
Classifier: Intended Audience :: Developers
Classifier: Operating System :: OS Independent
Classifier: Programming Language :: JavaScript
Classifier: Programming Language :: Python :: 3 :: Only
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Programming Language :: Python :: 3.8
Classifier: Programming Language :: Python :: 3.9
Classifier: Typing :: Typed
Classifier: Development Status :: 4 - Beta
Classifier: License :: OSI Approved
Classifier: Framework :: AWS CDK
Classifier: Framework :: AWS CDK :: 1
Requires-Python: >=3.6
Description-Content-Type: text/markdown
License-File: LICENSE
License-File: NOTICE

# AWS Glue Construct Library

<!--BEGIN STABILITY BANNER-->---


![cfn-resources: Stable](https://img.shields.io/badge/cfn--resources-stable-success.svg?style=for-the-badge)

> All classes with the `Cfn` prefix in this module ([CFN Resources](https://docs.aws.amazon.com/cdk/latest/guide/constructs.html#constructs_lib)) are always stable and safe to use.

![cdk-constructs: Experimental](https://img.shields.io/badge/cdk--constructs-experimental-important.svg?style=for-the-badge)

> The APIs of higher level constructs in this module are experimental and under active development.
> They are subject to non-backward compatible changes or removal in any future version. These are
> not subject to the [Semantic Versioning](https://semver.org/) model and breaking changes will be
> announced in the release notes. This means that while you may use them, you may need to update
> your source code when upgrading to a newer version of this package.

---
<!--END STABILITY BANNER-->

This module is part of the [AWS Cloud Development Kit](https://github.com/aws/aws-cdk) project.

## Connection

A `Connection` allows Glue jobs, crawlers and development endpoints to access certain types of data stores. For example, to create a network connection to connect to a data source within a VPC:

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Connection(stack, "MyConnection",
    connection_type=glue.ConnectionTypes.NETWORK,
    # The security groups granting AWS Glue inbound access to the data source within the VPC
    security_groups=[security_group],
    # The VPC subnet which contains the data source
    subnet=subnet
)
```

If you need to use a connection type that doesn't exist as a static member on `ConnectionType`, you can instantiate a `ConnectionType` object, e.g: `new glue.ConnectionType('NEW_TYPE')`.

See [Adding a Connection to Your Data Store](https://docs.aws.amazon.com/glue/latest/dg/populate-add-connection.html) and [Connection Structure](https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-catalog-connections.html#aws-glue-api-catalog-connections-Connection) documentation for more information on the supported data stores and their configurations.

## Database

A `Database` is a logical grouping of `Tables` in the Glue Catalog.

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Database(stack, "MyDatabase",
    database_name="my_database"
)
```

## SecurityConfiguration

A `SecurityConfiguration` is a set of security properties that can be used by AWS Glue to encrypt data at rest.

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.SecurityConfiguration(stack, "MySecurityConfiguration",
    security_configuration_name="name",
    cloud_watch_encryption={
        "mode": glue.CloudWatchEncryptionMode.KMS
    },
    job_bookmarks_encryption={
        "mode": glue.JobBookmarksEncryptionMode.CLIENT_SIDE_KMS
    },
    s3_encryption={
        "mode": glue.S3EncryptionMode.KMS
    }
)
```

By default, a shared KMS key is created for use with the encryption configurations that require one. You can also supply your own key for each encryption config, for example, for CloudWatch encryption:

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.SecurityConfiguration(stack, "MySecurityConfiguration",
    security_configuration_name="name",
    cloud_watch_encryption={
        "mode": glue.CloudWatchEncryptionMode.KMS,
        "kms_key": key
    }
)
```

See [documentation](https://docs.aws.amazon.com/glue/latest/dg/encryption-security-configuration.html) for more info for Glue encrypting data written by Crawlers, Jobs, and Development Endpoints.

## Table

A Glue table describes a table of data in S3: its structure (column names and types), location of data (S3 objects with a common prefix in a S3 bucket), and format for the files (Json, Avro, Parquet, etc.):

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Table(stack, "MyTable",
    database=my_database,
    table_name="my_table",
    columns=[{
        "name": "col1",
        "type": glue.Schema.STRING
    }, {
        "name": "col2",
        "type": glue.Schema.array(Schema.STRING),
        "comment": "col2 is an array of strings"
    }],
    data_format=glue.DataFormat.JSON
)
```

By default, a S3 bucket will be created to store the table's data but you can manually pass the `bucket` and `s3Prefix`:

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Table(stack, "MyTable",
    bucket=my_bucket,
    s3_prefix="my-table/", ...
)
```

By default, an S3 bucket will be created to store the table's data and stored in the bucket root. You can also manually pass the `bucket` and `s3Prefix`:

### Partitions

To improve query performance, a table can specify `partitionKeys` on which data is stored and queried separately. For example, you might partition a table by `year` and `month` to optimize queries based on a time window:

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Table(stack, "MyTable",
    database=my_database,
    table_name="my_table",
    columns=[{
        "name": "col1",
        "type": glue.Schema.STRING
    }],
    partition_keys=[{
        "name": "year",
        "type": glue.Schema.SMALL_INT
    }, {
        "name": "month",
        "type": glue.Schema.SMALL_INT
    }],
    data_format=glue.DataFormat.JSON
)
```

## [Encryption](https://docs.aws.amazon.com/athena/latest/ug/encryption.html)

You can enable encryption on a Table's data:

* `Unencrypted` - files are not encrypted. The default encryption setting.
* [S3Managed](https://docs.aws.amazon.com/AmazonS3/latest/dev/UsingServerSideEncryption.html) - Server side encryption (`SSE-S3`) with an Amazon S3-managed key.

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Table(stack, "MyTable",
    encryption=glue.TableEncryption.S3_MANAGED, ...
)
```

* [Kms](https://docs.aws.amazon.com/AmazonS3/latest/dev/UsingKMSEncryption.html) - Server-side encryption (`SSE-KMS`) with an AWS KMS Key managed by the account owner.

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
# KMS key is created automatically
glue.Table(stack, "MyTable",
    encryption=glue.TableEncryption.KMS, ...
)

# with an explicit KMS key
glue.Table(stack, "MyTable",
    encryption=glue.TableEncryption.KMS,
    encryption_key=kms.Key(stack, "MyKey"), ...
)
```

* [KmsManaged](https://docs.aws.amazon.com/AmazonS3/latest/dev/UsingKMSEncryption.html) - Server-side encryption (`SSE-KMS`), like `Kms`, except with an AWS KMS Key managed by the AWS Key Management Service.

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Table(stack, "MyTable",
    encryption=glue.TableEncryption.KMS_MANAGED, ...
)
```

* [ClientSideKms](https://docs.aws.amazon.com/AmazonS3/latest/dev/UsingClientSideEncryption.html#client-side-encryption-kms-managed-master-key-intro) - Client-side encryption (`CSE-KMS`) with an AWS KMS Key managed by the account owner.

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
# KMS key is created automatically
glue.Table(stack, "MyTable",
    encryption=glue.TableEncryption.CLIENT_SIDE_KMS, ...
)

# with an explicit KMS key
glue.Table(stack, "MyTable",
    encryption=glue.TableEncryption.CLIENT_SIDE_KMS,
    encryption_key=kms.Key(stack, "MyKey"), ...
)
```

*Note: you cannot provide a `Bucket` when creating the `Table` if you wish to use server-side encryption (`KMS`, `KMS_MANAGED` or `S3_MANAGED`)*.

## Types

A table's schema is a collection of columns, each of which have a `name` and a `type`. Types are recursive structures, consisting of primitive and complex types:

```python
# Example automatically generated without compilation. See https://github.com/aws/jsii/issues/826
glue.Table(stack, "MyTable",
    columns=[{
        "name": "primitive_column",
        "type": glue.Schema.STRING
    }, {
        "name": "array_column",
        "type": glue.Schema.array(glue.Schema.INTEGER),
        "comment": "array<integer>"
    }, {
        "name": "map_column",
        "type": glue.Schema.map(glue.Schema.STRING, glue.Schema.TIMESTAMP),
        "comment": "map<string,string>"
    }, {
        "name": "struct_column",
        "type": glue.Schema.struct([
            name="nested_column",
            type=glue.Schema.DATE,
            comment="nested comment"
        ]),
        "comment": "struct<nested_column:date COMMENT 'nested comment'>"
    }], ...
```

### Primitives

#### Numeric

| Name      	| Type     	| Comments                                                                                                          |
|-----------	|----------	|------------------------------------------------------------------------------------------------------------------	|
| FLOAT     	| Constant 	| A 32-bit single-precision floating point number                                                                   |
| INTEGER   	| Constant 	| A 32-bit signed value in two's complement format, with a minimum value of -2^31 and a maximum value of 2^31-1 	|
| DOUBLE    	| Constant 	| A 64-bit double-precision floating point number                                                                   |
| BIG_INT   	| Constant 	| A 64-bit signed INTEGER in two’s complement format, with a minimum value of -2^63 and a maximum value of 2^63 -1  |
| SMALL_INT 	| Constant 	| A 16-bit signed INTEGER in two’s complement format, with a minimum value of -2^15 and a maximum value of 2^15-1   |
| TINY_INT  	| Constant 	| A 8-bit signed INTEGER in two’s complement format, with a minimum value of -2^7 and a maximum value of 2^7-1      |

#### Date and time

| Name      	| Type     	| Comments                                                                                                                                                                	|
|-----------	|----------	|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------	|
| DATE      	| Constant 	| A date in UNIX format, such as YYYY-MM-DD.                                                                                                                              	|
| TIMESTAMP 	| Constant 	| Date and time instant in the UNiX format, such as yyyy-mm-dd hh:mm:ss[.f...]. For example, TIMESTAMP '2008-09-15 03:04:05.324'. This format uses the session time zone. 	|

#### String

| Name                                       	| Type     	| Comments                                                                                                                                                                                          	|
|--------------------------------------------	|----------	|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------	|
| STRING                                     	| Constant 	| A string literal enclosed in single or double quotes                                                                                                                                              	|
| decimal(precision: number, scale?: number) 	| Function 	| `precision` is the total number of digits. `scale` (optional) is the number of digits in fractional part with a default of 0. For example, use these type definitions: decimal(11,5), decimal(15) 	|
| char(length: number)                       	| Function 	| Fixed length character data, with a specified length between 1 and 255, such as char(10)                                                                                                          	|
| varchar(length: number)                    	| Function 	| Variable length character data, with a specified length between 1 and 65535, such as varchar(10)                                                                                                  	|

#### Miscellaneous

| Name    	| Type     	| Comments                      	|
|---------	|----------	|-------------------------------	|
| BOOLEAN 	| Constant 	| Values are `true` and `false` 	|
| BINARY  	| Constant 	| Value is in binary            	|

### Complex

| Name                                	| Type     	| Comments                                                          	|
|-------------------------------------	|----------	|-------------------------------------------------------------------	|
| array(itemType: Type)               	| Function 	| An array of some other type                                       	|
| map(keyType: Type, valueType: Type) 	| Function 	| A map of some primitive key type to any value type                	|
| struct(collumns: Column[])          	| Function 	| Nested structure containing individually named and typed collumns 	|


