@aws-cdk/aws-glue-alpha
Version:
The CDK Construct Library for AWS::Glue
319 lines • 26.6 kB
JavaScript
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.CrawlerState = exports.ConditionLogicalOperator = exports.PredicateLogical = exports.MaxCapacity = exports.JobType = exports.Runtime = exports.PythonVersion = exports.JobLanguage = exports.GlueVersion = exports.ExecutionClass = exports.MetricType = exports.JobState = exports.WorkerType = void 0;
/**
* The type of predefined worker that is allocated when a job runs.
*/
var WorkerType;
(function (WorkerType) {
/**
* Standard Worker Type
* 4 vCPU, 16 GB of memory and a 50GB disk, and 2 executors per worker.
*/
WorkerType["STANDARD"] = "Standard";
/**
* G.1X Worker Type
* 1 DPU (4 vCPU, 16 GB of memory, 64 GB disk), and provides 1 executor per worker. Suitable for memory-intensive jobs.
*/
WorkerType["G_1X"] = "G.1X";
/**
* G.2X Worker Type
* 2 DPU (8 vCPU, 32 GB of memory, 128 GB disk), and provides 1 executor per worker. Suitable for memory-intensive jobs.
*/
WorkerType["G_2X"] = "G.2X";
/**
* G.4X Worker Type
* 4 DPU (16 vCPU, 64 GB of memory, 256 GB disk), and provides 1 executor per worker.
* We recommend this worker type for jobs whose workloads contain your most demanding transforms,
* aggregations, joins, and queries. This worker type is available only for AWS Glue version 3.0 or later jobs.
*/
WorkerType["G_4X"] = "G.4X";
/**
* G.8X Worker Type
* 8 DPU (32 vCPU, 128 GB of memory, 512 GB disk), and provides 1 executor per worker. We recommend this worker
* type for jobs whose workloads contain your most demanding transforms, aggregations, joins, and queries.
* This worker type is available only for AWS Glue version 3.0 or later jobs.
*/
WorkerType["G_8X"] = "G.8X";
/**
* G.12X Worker Type
* 12 DPU (48 vCPU, 192 GB of memory, 768 GB disk), and provides 1 executor per worker.
* We recommend this worker type for jobs with very large and resource-intensive workloads
* that require significant compute capacity. This worker type is available only for
* AWS Glue version 3.0 or later jobs.
*/
WorkerType["G_12X"] = "G.12X";
/**
* G.16X Worker Type
* 16 DPU (64 vCPU, 256 GB of memory, 1024 GB disk), and provides 1 executor per worker.
* We recommend this worker type for jobs with the largest and most resource-intensive workloads
* that require maximum compute capacity. This worker type is available only for
* AWS Glue version 3.0 or later jobs.
*/
WorkerType["G_16X"] = "G.16X";
/**
* G.025X Worker Type
* 0.25 DPU (2 vCPU, 4 GB of memory, 64 GB disk), and provides 1 executor per worker. Suitable for low volume streaming jobs.
*/
WorkerType["G_025X"] = "G.025X";
/**
* Z.2X Worker Type
*/
WorkerType["Z_2X"] = "Z.2X";
/**
* R.1X Worker Type
* 1 M-DPU (4 vCPUs, 32 GB memory), We recommend this worker type for memory-intensive workloads
* that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.
*/
WorkerType["R_1X"] = "R.1X";
/**
* R.2X Worker Type
* 2 M-DPU (8 vCPUs, 64 GB memory), We recommend this worker type for memory-intensive workloads
* that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.
*/
WorkerType["R_2X"] = "R.2X";
/**
* R.4X Worker Type
* 4 M-DPU (16 vCPUs, 128 GB memory), We recommend this worker type for large memory-intensive workloads
* that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.
*/
WorkerType["R_4X"] = "R.4X";
/**
* R.8X Worker Type
* 8 M-DPU (32 vCPUs, 256 GB memory), We recommend this worker type for very large memory-intensive workloads
* that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.
*/
WorkerType["R_8X"] = "R.8X";
})(WorkerType || (exports.WorkerType = WorkerType = {}));
/**
* The number of workers of a defined workerType that are allocated when a job runs.
*
* @see https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-job.html
*/
/**
* Job states emitted by Glue to CloudWatch Events.
*
* @see https://docs.aws.amazon.com/AmazonCloudWatch/latest/events/EventTypes.html#glue-event-types for more information.
*/
var JobState;
(function (JobState) {
/**
* State indicating job run succeeded
*/
JobState["SUCCEEDED"] = "SUCCEEDED";
/**
* State indicating job run failed
*/
JobState["FAILED"] = "FAILED";
/**
* State indicating job run timed out
*/
JobState["TIMEOUT"] = "TIMEOUT";
/**
* State indicating job is starting
*/
JobState["STARTING"] = "STARTING";
/**
* State indicating job is running
*/
JobState["RUNNING"] = "RUNNING";
/**
* State indicating job is stopping
*/
JobState["STOPPING"] = "STOPPING";
/**
* State indicating job stopped
*/
JobState["STOPPED"] = "STOPPED";
})(JobState || (exports.JobState = JobState = {}));
/**
* The Glue CloudWatch metric type.
*
* @see https://docs.aws.amazon.com/glue/latest/dg/monitoring-awsglue-with-cloudwatch-metrics.html
*/
var MetricType;
(function (MetricType) {
/**
* A value at a point in time.
*/
MetricType["GAUGE"] = "gauge";
/**
* An aggregate number.
*/
MetricType["COUNT"] = "count";
})(MetricType || (exports.MetricType = MetricType = {}));
/**
* The ExecutionClass whether the job is run with a standard or flexible execution class.
*
* @see https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-job.html#aws-glue-api-jobs-job-Job
* @see https://docs.aws.amazon.com/glue/latest/dg/add-job.html
*/
var ExecutionClass;
(function (ExecutionClass) {
/**
* The flexible execution class is appropriate for time-insensitive jobs whose start
* and completion times may vary.
*/
ExecutionClass["FLEX"] = "FLEX";
/**
* The standard execution class is ideal for time-sensitive workloads that require fast job
* startup and dedicated resources.
*/
ExecutionClass["STANDARD"] = "STANDARD";
})(ExecutionClass || (exports.ExecutionClass = ExecutionClass = {}));
/**
* AWS Glue version determines the versions of Apache Spark and Python that are available to the job.
*
* @see https://docs.aws.amazon.com/glue/latest/dg/add-job.html.
*/
var GlueVersion;
(function (GlueVersion) {
/**
* Glue version using Spark 2.2.1 and Python 2.7
*/
GlueVersion["V0_9"] = "0.9";
/**
* Glue version using Spark 2.4.3, Python 2.7 and Python 3.6
*/
GlueVersion["V1_0"] = "1.0";
/**
* Glue version using Spark 2.4.3 and Python 3.7
*/
GlueVersion["V2_0"] = "2.0";
/**
* Glue version using Spark 3.1.1 and Python 3.7
*/
GlueVersion["V3_0"] = "3.0";
/**
* Glue version using Spark 3.3.0 and Python 3.10
*/
GlueVersion["V4_0"] = "4.0";
/**
* Glue version using Spark 3.5.4, Python 3.11, and Scala 2.12.18
*/
GlueVersion["V5_0"] = "5.0";
/**
* Glue version using Spark 3.5.6, Python 3.11, and Scala 2.12.18
*/
GlueVersion["V5_1"] = "5.1";
})(GlueVersion || (exports.GlueVersion = GlueVersion = {}));
/**
* Runtime language of the Glue job
*/
var JobLanguage;
(function (JobLanguage) {
/**
* Scala
*/
JobLanguage["SCALA"] = "scala";
/**
* Python
*/
JobLanguage["PYTHON"] = "python";
})(JobLanguage || (exports.JobLanguage = JobLanguage = {}));
/**
* Python version
*/
var PythonVersion;
(function (PythonVersion) {
/**
* Python 2 (the exact version depends on GlueVersion and JobCommand used)
*/
PythonVersion["TWO"] = "2";
/**
* Python 3 (the exact version depends on GlueVersion and JobCommand used)
*/
PythonVersion["THREE"] = "3";
/**
* Python 3.9 (the exact version depends on GlueVersion and JobCommand used)
*/
PythonVersion["THREE_NINE"] = "3.9";
})(PythonVersion || (exports.PythonVersion = PythonVersion = {}));
/**
* AWS Glue runtime determines the runtime engine of the job.
*
*/
var Runtime;
(function (Runtime) {
/**
* Runtime for a Glue for Ray 2.4.
*/
Runtime["RAY_TWO_FOUR"] = "Ray2.4";
})(Runtime || (exports.Runtime = Runtime = {}));
/**
* The job type.
*/
var JobType;
(function (JobType) {
/**
* Command for running a Glue Spark job.
*/
JobType["ETL"] = "glueetl";
/**
* Command for running a Glue Spark streaming job.
*/
JobType["STREAMING"] = "gluestreaming";
/**
* Command for running a Glue python shell job.
*/
JobType["PYTHON_SHELL"] = "pythonshell";
/**
* Command for running a Glue Ray job.
*/
JobType["RAY"] = "glueray";
})(JobType || (exports.JobType = JobType = {}));
/**
* The number of AWS Glue data processing units (DPUs) that can be allocated when this job runs. A DPU is a relative measure of processing power that consists of 4 vCPUs of compute capacity and 16 GB of memory.
*/
var MaxCapacity;
(function (MaxCapacity) {
/**
* DPU value of 1/16th
*/
MaxCapacity[MaxCapacity["DPU_1_16TH"] = 0.0625] = "DPU_1_16TH";
/**
* DPU value of 1
*/
MaxCapacity[MaxCapacity["DPU_1"] = 1] = "DPU_1";
})(MaxCapacity || (exports.MaxCapacity = MaxCapacity = {}));
/*
* Represents the logical operator for combining multiple conditions in the Glue Trigger API.
*/
var PredicateLogical;
(function (PredicateLogical) {
/**
* All conditions must be true for the predicate to be true.
*/
PredicateLogical["AND"] = "AND";
/**
* At least one condition must be true for the predicate to be true.
*/
PredicateLogical["ANY"] = "ANY";
})(PredicateLogical || (exports.PredicateLogical = PredicateLogical = {}));
/**
* Represents the logical operator for evaluating a single condition in the Glue Trigger API.
*/
var ConditionLogicalOperator;
(function (ConditionLogicalOperator) {
/** The condition is true if the values are equal. */
ConditionLogicalOperator["EQUALS"] = "EQUALS";
})(ConditionLogicalOperator || (exports.ConditionLogicalOperator = ConditionLogicalOperator = {}));
/**
* Represents the state of a crawler for a condition in the Glue Trigger API.
*/
var CrawlerState;
(function (CrawlerState) {
/** The crawler is currently running. */
CrawlerState["RUNNING"] = "RUNNING";
/** The crawler is in the process of being cancelled. */
CrawlerState["CANCELLING"] = "CANCELLING";
/** The crawler has been cancelled. */
CrawlerState["CANCELLED"] = "CANCELLED";
/** The crawler has completed its operation successfully. */
CrawlerState["SUCCEEDED"] = "SUCCEEDED";
/** The crawler has failed to complete its operation. */
CrawlerState["FAILED"] = "FAILED";
/** The crawler encountered an error during its operation. */
CrawlerState["ERROR"] = "ERROR";
})(CrawlerState || (exports.CrawlerState = CrawlerState = {}));
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Suitable for memory-intensive jobs.\n   */\n  G_1X = 'G.1X',\n\n  /**\n   * G.2X Worker Type\n   * 2 DPU (8 vCPU, 32 GB of memory, 128 GB disk), and provides 1 executor per worker. Suitable for memory-intensive jobs.\n   */\n  G_2X = 'G.2X',\n\n  /**\n   * G.4X Worker Type\n   * 4 DPU (16 vCPU, 64 GB of memory, 256 GB disk), and provides 1 executor per worker.\n   * We recommend this worker type for jobs whose workloads contain your most demanding transforms,\n   * aggregations, joins, and queries. This worker type is available only for AWS Glue version 3.0 or later jobs.\n   */\n  G_4X = 'G.4X',\n\n  /**\n   * G.8X Worker Type\n   * 8 DPU (32 vCPU, 128 GB of memory, 512 GB disk), and provides 1 executor per worker. We recommend this worker\n   * type for jobs whose workloads contain your most demanding transforms, aggregations, joins, and queries.\n   * This worker type is available only for AWS Glue version 3.0 or later jobs.\n   */\n  G_8X = 'G.8X',\n\n  /**\n   * G.12X Worker Type\n   * 12 DPU (48 vCPU, 192 GB of memory, 768 GB disk), and provides 1 executor per worker.\n   * We recommend this worker type for jobs with very large and resource-intensive workloads\n   * that require significant compute capacity. This worker type is available only for\n   * AWS Glue version 3.0 or later jobs.\n   */\n  G_12X = 'G.12X',\n\n  /**\n   * G.16X Worker Type\n   * 16 DPU (64 vCPU, 256 GB of memory, 1024 GB disk), and provides 1 executor per worker.\n   * We recommend this worker type for jobs with the largest and most resource-intensive workloads\n   * that require maximum compute capacity. This worker type is available only for\n   * AWS Glue version 3.0 or later jobs.\n   */\n  G_16X = 'G.16X',\n\n  /**\n   * G.025X Worker Type\n   * 0.25 DPU (2 vCPU, 4 GB of memory, 64 GB disk), and provides 1 executor per worker. Suitable for low volume streaming jobs.\n   */\n  G_025X = 'G.025X',\n\n  /**\n   * Z.2X Worker Type\n   */\n  Z_2X = 'Z.2X',\n\n  /**\n   * R.1X Worker Type\n   * 1 M-DPU (4 vCPUs, 32 GB memory), We recommend this worker type for memory-intensive workloads\n   * that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.\n   */\n  R_1X = 'R.1X',\n\n  /**\n   * R.2X Worker Type\n   * 2 M-DPU (8 vCPUs, 64 GB memory), We recommend this worker type for memory-intensive workloads\n   * that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.\n   */\n  R_2X = 'R.2X',\n\n  /**\n   * R.4X Worker Type\n   * 4 M-DPU (16 vCPUs, 128 GB memory), We recommend this worker type for large memory-intensive workloads\n   * that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.\n   */\n  R_4X = 'R.4X',\n\n  /**\n   * R.8X Worker Type\n   * 8 M-DPU (32 vCPUs, 256 GB memory), We recommend this worker type for very large memory-intensive workloads\n   * that frequently encounter out-of-memory errors or require high memory-to-CPU ratios.\n   */\n  R_8X = 'R.8X',\n}\n\n/**\n * The number of workers of a defined workerType that are allocated when a job runs.\n *\n * @see https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-job.html\n */\n\n/**\n * Job states emitted by Glue to CloudWatch Events.\n *\n * @see https://docs.aws.amazon.com/AmazonCloudWatch/latest/events/EventTypes.html#glue-event-types for more information.\n */\nexport enum JobState {\n  /**\n   * State indicating job run succeeded\n   */\n  SUCCEEDED = 'SUCCEEDED',\n\n  /**\n   * State indicating job run failed\n   */\n  FAILED = 'FAILED',\n\n  /**\n   * State indicating job run timed out\n   */\n  TIMEOUT = 'TIMEOUT',\n\n  /**\n   * State indicating job is starting\n   */\n  STARTING = 'STARTING',\n\n  /**\n   * State indicating job is running\n   */\n  RUNNING = 'RUNNING',\n\n  /**\n   * State indicating job is stopping\n   */\n  STOPPING = 'STOPPING',\n\n  /**\n   * State indicating job stopped\n   */\n  STOPPED = 'STOPPED',\n}\n\n/**\n * The Glue CloudWatch metric type.\n *\n * @see https://docs.aws.amazon.com/glue/latest/dg/monitoring-awsglue-with-cloudwatch-metrics.html\n */\nexport enum MetricType {\n  /**\n   * A value at a point in time.\n   */\n  GAUGE = 'gauge',\n\n  /**\n   * An aggregate number.\n   */\n  COUNT = 'count',\n}\n\n/**\n * The ExecutionClass whether the job is run with a standard or flexible execution class.\n *\n * @see https://docs.aws.amazon.com/glue/latest/dg/aws-glue-api-jobs-job.html#aws-glue-api-jobs-job-Job\n * @see https://docs.aws.amazon.com/glue/latest/dg/add-job.html\n */\nexport enum ExecutionClass {\n  /**\n   * The flexible execution class is appropriate for time-insensitive jobs whose start\n   * and completion times may vary.\n   */\n  FLEX = 'FLEX',\n\n  /**\n   * The standard execution class is ideal for time-sensitive workloads that require fast job\n   * startup and dedicated resources.\n   */\n  STANDARD = 'STANDARD',\n}\n\n/**\n * AWS Glue version determines the versions of Apache Spark and Python that are available to the job.\n *\n * @see https://docs.aws.amazon.com/glue/latest/dg/add-job.html.\n */\nexport enum GlueVersion {\n  /**\n   * Glue version using Spark 2.2.1 and Python 2.7\n   */\n  V0_9 = '0.9',\n\n  /**\n   * Glue version using Spark 2.4.3, Python 2.7 and Python 3.6\n   */\n  V1_0 = '1.0',\n\n  /**\n   * Glue version using Spark 2.4.3 and Python 3.7\n   */\n  V2_0 = '2.0',\n\n  /**\n   * Glue version using Spark 3.1.1 and Python 3.7\n   */\n  V3_0 = '3.0',\n\n  /**\n   * Glue version using Spark 3.3.0 and Python 3.10\n   */\n  V4_0 = '4.0',\n\n  /**\n   * Glue version using Spark 3.5.4, Python 3.11, and Scala 2.12.18\n   */\n  V5_0 = '5.0',\n\n  /**\n   * Glue version using Spark 3.5.6, Python 3.11, and Scala 2.12.18\n   */\n  V5_1 = '5.1',\n}\n\n/**\n * Runtime language of the Glue job\n */\nexport enum JobLanguage {\n  /**\n   * Scala\n   */\n  SCALA = 'scala',\n\n  /**\n   * Python\n   */\n  PYTHON = 'python',\n}\n\n/**\n * Python version\n */\nexport enum PythonVersion {\n  /**\n   * Python 2 (the exact version depends on GlueVersion and JobCommand used)\n   */\n  TWO = '2',\n\n  /**\n   * Python 3 (the exact version depends on GlueVersion and JobCommand used)\n   */\n  THREE = '3',\n\n  /**\n   * Python 3.9 (the exact version depends on GlueVersion and JobCommand used)\n   */\n  THREE_NINE = '3.9',\n\n}\n\n/**\n * AWS Glue runtime determines the runtime engine of the job.\n *\n */\nexport enum Runtime {\n  /**\n   * Runtime for a Glue for Ray 2.4.\n   */\n  RAY_TWO_FOUR = 'Ray2.4',\n}\n\n/**\n * The job type.\n */\nexport enum JobType {\n  /**\n   * Command for running a Glue Spark job.\n   */\n  ETL = 'glueetl',\n\n  /**\n   * Command for running a Glue Spark streaming job.\n   */\n  STREAMING = 'gluestreaming',\n\n  /**\n   * Command for running a Glue python shell job.\n   */\n  PYTHON_SHELL = 'pythonshell',\n\n  /**\n   * Command for running a Glue Ray job.\n   */\n  RAY = 'glueray',\n\n}\n\n/**\n * The number of AWS Glue data processing units (DPUs) that can be allocated when this job runs. A DPU is a relative measure of processing power that consists of 4 vCPUs of compute capacity and 16 GB of memory.\n */\nexport enum MaxCapacity {\n  /**\n   * DPU value of 1/16th\n   */\n  DPU_1_16TH = 0.0625,\n\n  /**\n   * DPU value of 1\n   */\n  DPU_1 = 1,\n}\n\n/*\n * Represents the logical operator for combining multiple conditions in the Glue Trigger API.\n */\nexport enum PredicateLogical {\n  /**\n   * All conditions must be true for the predicate to be true.\n   */\n  AND = 'AND',\n\n  /**\n   * At least one condition must be true for the predicate to be true.\n   */\n  ANY = 'ANY',\n}\n\n/**\n * Represents the logical operator for evaluating a single condition in the Glue Trigger API.\n */\nexport enum ConditionLogicalOperator {\n  /** The condition is true if the values are equal. */\n  EQUALS = 'EQUALS',\n}\n\n/**\n * Represents the state of a crawler for a condition in the Glue Trigger API.\n */\nexport enum CrawlerState {\n  /** The crawler is currently running. */\n  RUNNING = 'RUNNING',\n\n  /** The crawler is in the process of being cancelled. */\n  CANCELLING = 'CANCELLING',\n\n  /** The crawler has been cancelled. */\n  CANCELLED = 'CANCELLED',\n\n  /** The crawler has completed its operation successfully. */\n  SUCCEEDED = 'SUCCEEDED',\n\n  /** The crawler has failed to complete its operation. */\n  FAILED = 'FAILED',\n\n  /** The crawler encountered an error during its operation. */\n  ERROR = 'ERROR',\n}\n"]}