Source code for airflow.providers.amazon.aws.operators.batch

# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements.  See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership.  The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License.  You may obtain a copy of the License at
#
#   http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied.  See the License for the
# specific language governing permissions and limitations
# under the License.
"""AWS Batch services.

.. seealso::

    - https://boto3.amazonaws.com/v1/documentation/api/latest/guide/configuration.html
    - https://boto3.amazonaws.com/v1/documentation/api/latest/reference/services/batch.html
    - https://docs.aws.amazon.com/batch/latest/APIReference/Welcome.html
"""
from __future__ import annotations

import warnings
from datetime import timedelta
from functools import cached_property
from typing import TYPE_CHECKING, Any, Sequence

from airflow.configuration import conf
from airflow.exceptions import AirflowException, AirflowProviderDeprecationWarning
from airflow.models import BaseOperator
from airflow.providers.amazon.aws.hooks.batch_client import BatchClientHook
from airflow.providers.amazon.aws.links.batch import (
    BatchJobDefinitionLink,
    BatchJobDetailsLink,
    BatchJobQueueLink,
)
from airflow.providers.amazon.aws.links.logs import CloudWatchEventsLink
from airflow.providers.amazon.aws.triggers.batch import (
    BatchCreateComputeEnvironmentTrigger,
    BatchJobTrigger,
)
from airflow.providers.amazon.aws.utils import trim_none_values
from airflow.providers.amazon.aws.utils.task_log_fetcher import AwsTaskLogFetcher

if TYPE_CHECKING:
    from airflow.utils.context import Context


[docs]class BatchOperator(BaseOperator): """Execute a job on AWS Batch. .. seealso:: For more information on how to use this operator, take a look at the guide: :ref:`howto/operator:BatchOperator` :param job_name: the name for the job that will run on AWS Batch (templated) :param job_definition: the job definition name on AWS Batch :param job_queue: the queue name on AWS Batch :param overrides: DEPRECATED, use container_overrides instead with the same value. :param container_overrides: the `containerOverrides` parameter for boto3 (templated) :param node_overrides: the `nodeOverrides` parameter for boto3 (templated) :param share_identifier: The share identifier for the job. Don't specify this parameter if the job queue doesn't have a scheduling policy. :param scheduling_priority_override: The scheduling priority for the job. Jobs with a higher scheduling priority are scheduled before jobs with a lower scheduling priority. This overrides any scheduling priority in the job definition :param array_properties: the `arrayProperties` parameter for boto3 :param parameters: the `parameters` for boto3 (templated) :param job_id: the job ID, usually unknown (None) until the submit_job operation gets the jobId defined by AWS Batch :param waiters: an :py:class:`.BatchWaiters` object (see note below); if None, polling is used with max_retries and status_retries. :param max_retries: exponential back-off retries, 4200 = 48 hours; polling is only used when waiters is None :param status_retries: number of HTTP retries to get job status, 10; polling is only used when waiters is None :param aws_conn_id: connection id of AWS credentials / region name. If None, credential boto3 strategy will be used. :param region_name: region name to use in AWS Hook. Override the region_name in connection (if provided) :param tags: collection of tags to apply to the AWS Batch job submission if None, no tags are submitted :param deferrable: Run operator in the deferrable mode. :param awslogs_enabled: Specifies whether logs from CloudWatch should be printed or not, False. If it is an array job, only the logs of the first task will be printed. :param awslogs_fetch_interval: The interval with which cloudwatch logs are to be fetched, 30 sec. :param poll_interval: (Deferrable mode only) Time in seconds to wait between polling. .. note:: Any custom waiters must return a waiter for these calls: .. code-block:: python waiter = waiters.get_waiter("JobExists") waiter = waiters.get_waiter("JobRunning") waiter = waiters.get_waiter("JobComplete") """
[docs] ui_color = "#c3dae0"
[docs] arn: str | None = None
[docs] template_fields: Sequence[str] = ( "job_id", "job_name", "job_definition", "job_queue", "container_overrides", "array_properties", "node_overrides", "parameters", "waiters", "tags", "wait_for_completion", "awslogs_enabled", "awslogs_fetch_interval", )
[docs] template_fields_renderers = { "container_overrides": "json", "parameters": "json", "node_overrides": "json", }
@property def __init__( self, *, job_name: str, job_definition: str, job_queue: str, overrides: dict | None = None, # deprecated container_overrides: dict | None = None, array_properties: dict | None = None, node_overrides: dict | None = None, share_identifier: str | None = None, scheduling_priority_override: int | None = None, parameters: dict | None = None, job_id: str | None = None, waiters: Any | None = None, max_retries: int = 4200, status_retries: int | None = None, aws_conn_id: str | None = None, region_name: str | None = None, tags: dict | None = None, wait_for_completion: bool = True, deferrable: bool = conf.getboolean("operators", "default_deferrable", fallback=False), poll_interval: int = 30, awslogs_enabled: bool = False, awslogs_fetch_interval: timedelta = timedelta(seconds=30), **kwargs, ) -> None: BaseOperator.__init__(self, **kwargs) self.job_id = job_id self.job_name = job_name self.job_definition = job_definition self.job_queue = job_queue self.container_overrides = container_overrides # handle `overrides` deprecation in favor of `container_overrides` if overrides: if container_overrides: # disallow setting both old and new params raise AirflowException( "'container_overrides' replaces the 'overrides' parameter. " "You cannot specify both. Please remove assignation to the deprecated 'overrides'." ) self.container_overrides = overrides warnings.warn( "Parameter `overrides` is deprecated, Please use `container_overrides` instead.", AirflowProviderDeprecationWarning, stacklevel=2, ) self.node_overrides = node_overrides self.share_identifier = share_identifier self.scheduling_priority_override = scheduling_priority_override self.array_properties = array_properties self.parameters = parameters or {} self.waiters = waiters self.tags = tags or {} self.wait_for_completion = wait_for_completion self.deferrable = deferrable self.poll_interval = poll_interval self.awslogs_enabled = awslogs_enabled self.awslogs_fetch_interval = awslogs_fetch_interval # params for hook self.max_retries = max_retries self.status_retries = status_retries self.aws_conn_id = aws_conn_id self.region_name = region_name @cached_property
[docs] def hook(self) -> BatchClientHook: return BatchClientHook( max_retries=self.max_retries, status_retries=self.status_retries, aws_conn_id=self.aws_conn_id, region_name=self.region_name, )
[docs] def execute(self, context: Context): """Submit and monitor an AWS Batch job. :raises: AirflowException """ self.submit_job(context) if self.deferrable: self.defer( timeout=self.execution_timeout, trigger=BatchJobTrigger( job_id=self.job_id, waiter_max_attempts=self.max_retries, aws_conn_id=self.aws_conn_id, region_name=self.region_name, waiter_delay=self.poll_interval, ), method_name="execute_complete", ) if self.wait_for_completion: self.monitor_job(context) return self.job_id
[docs] def execute_complete(self, context, event=None): if event["status"] != "success": raise AirflowException(f"Error while running job: {event}") else: self.log.info("Job completed.") return event["job_id"]
[docs] def on_kill(self): response = self.hook.client.terminate_job(jobId=self.job_id, reason="Task killed by the user") self.log.info("AWS Batch job (%s) terminated: %s", self.job_id, response)
[docs] def submit_job(self, context: Context): """Submit an AWS Batch job. :raises: AirflowException """ self.log.info( "Running AWS Batch job - job definition: %s - on queue %s", self.job_definition, self.job_queue, ) if self.container_overrides: self.log.info("AWS Batch job - container overrides: %s", self.container_overrides) if self.array_properties: self.log.info("AWS Batch job - array properties: %s", self.array_properties) if self.node_overrides: self.log.info("AWS Batch job - node properties: %s", self.node_overrides) args = { "jobName": self.job_name, "jobQueue": self.job_queue, "jobDefinition": self.job_definition, "arrayProperties": self.array_properties, "parameters": self.parameters, "tags": self.tags, "containerOverrides": self.container_overrides, "nodeOverrides": self.node_overrides, "shareIdentifier": self.share_identifier, "schedulingPriorityOverride": self.scheduling_priority_override, } try: response = self.hook.client.submit_job(**trim_none_values(args)) except Exception as e: self.log.error( "AWS Batch job failed submission - job definition: %s - on queue %s", self.job_definition, self.job_queue, ) raise AirflowException(e) self.job_id = response["jobId"] self.log.info("AWS Batch job (%s) started: %s", self.job_id, response) BatchJobDetailsLink.persist( context=context, operator=self, region_name=self.hook.conn_region_name, aws_partition=self.hook.conn_partition, job_id=self.job_id, )
[docs] def monitor_job(self, context: Context): """Monitor an AWS Batch job. This can raise an exception or an AirflowTaskTimeout if the task was created with ``execution_timeout``. """ if not self.job_id: raise AirflowException("AWS Batch job - job_id was not found") try: job_desc = self.hook.get_job_description(self.job_id) job_definition_arn = job_desc["jobDefinition"] job_queue_arn = job_desc["jobQueue"] self.log.info( "AWS Batch job (%s) Job Definition ARN: %r, Job Queue ARN: %r", self.job_id, job_definition_arn, job_queue_arn, ) except KeyError: self.log.warning("AWS Batch job (%s) can't get Job Definition ARN and Job Queue ARN", self.job_id) else: BatchJobDefinitionLink.persist( context=context, operator=self, region_name=self.hook.conn_region_name, aws_partition=self.hook.conn_partition, job_definition_arn=job_definition_arn, ) BatchJobQueueLink.persist( context=context, operator=self, region_name=self.hook.conn_region_name, aws_partition=self.hook.conn_partition, job_queue_arn=job_queue_arn, ) if self.awslogs_enabled: if self.waiters: self.waiters.wait_for_job(self.job_id, get_batch_log_fetcher=self._get_batch_log_fetcher) else: self.hook.wait_for_job(self.job_id, get_batch_log_fetcher=self._get_batch_log_fetcher) else: if self.waiters: self.waiters.wait_for_job(self.job_id) else: self.hook.wait_for_job(self.job_id) awslogs = self.hook.get_job_all_awslogs_info(self.job_id) if awslogs: self.log.info("AWS Batch job (%s) CloudWatch Events details found. Links to logs:", self.job_id) link_builder = CloudWatchEventsLink() for log in awslogs: self.log.info(link_builder.format_link(**log)) if len(awslogs) > 1: # there can be several log streams on multi-node jobs self.log.warning( "out of all those logs, we can only link to one in the UI. Using the first one." ) CloudWatchEventsLink.persist( context=context, operator=self, region_name=self.hook.conn_region_name, aws_partition=self.hook.conn_partition, **awslogs[0], ) self.hook.check_job_success(self.job_id) self.log.info("AWS Batch job (%s) succeeded", self.job_id)
def _get_batch_log_fetcher(self, job_id: str) -> AwsTaskLogFetcher | None: awslog_info = self.hook.get_job_awslogs_info(job_id) if not awslog_info: return None return AwsTaskLogFetcher( aws_conn_id=self.aws_conn_id, region_name=awslog_info["awslogs_region"], log_group=awslog_info["awslogs_group"], log_stream_name=awslog_info["awslogs_stream_name"], fetch_interval=self.awslogs_fetch_interval, logger=self.log, )
[docs]class BatchCreateComputeEnvironmentOperator(BaseOperator): """Create an AWS Batch compute environment. .. seealso:: For more information on how to use this operator, take a look at the guide: :ref:`howto/operator:BatchCreateComputeEnvironmentOperator` :param compute_environment_name: Name of the AWS batch compute environment (templated). :param environment_type: Type of the compute-environment. :param state: State of the compute-environment. :param compute_resources: Details about the resources managed by the compute-environment (templated). More details: https://boto3.amazonaws.com/v1/documentation/api/latest/reference/services/batch.html#Batch.Client.create_compute_environment :param unmanaged_v_cpus: Maximum number of vCPU for an unmanaged compute environment. This parameter is only supported when the ``type`` parameter is set to ``UNMANAGED``. :param service_role: IAM role that allows Batch to make calls to other AWS services on your behalf (templated). :param tags: Tags that you apply to the compute-environment to help you categorize and organize your resources. :param poll_interval: How long to wait in seconds between 2 polls at the environment status. Only useful when deferrable is True. :param max_retries: How many times to poll for the environment status. Only useful when deferrable is True. :param aws_conn_id: Connection ID of AWS credentials / region name. If None, credential boto3 strategy will be used. :param region_name: Region name to use in AWS Hook. Overrides the ``region_name`` in connection if provided. :param deferrable: If True, the operator will wait asynchronously for the environment to be created. This mode requires aiobotocore module to be installed. (default: False) """
[docs] template_fields: Sequence[str] = ( "compute_environment_name", "compute_resources", "service_role", )
[docs] template_fields_renderers = {"compute_resources": "json"}
def __init__( self, compute_environment_name: str, environment_type: str, state: str, compute_resources: dict, unmanaged_v_cpus: int | None = None, service_role: str | None = None, tags: dict | None = None, poll_interval: int = 30, max_retries: int | None = None, aws_conn_id: str | None = None, region_name: str | None = None, deferrable: bool = conf.getboolean("operators", "default_deferrable", fallback=False), **kwargs, ): if "status_retries" in kwargs: warnings.warn( "The `status_retries` parameter is unused and should be removed. " "It'll be deleted in a future version.", AirflowProviderDeprecationWarning, stacklevel=2, ) kwargs.pop("status_retries") # remove before calling super() to prevent unexpected arg error super().__init__(**kwargs) self.compute_environment_name = compute_environment_name self.environment_type = environment_type self.state = state self.unmanaged_v_cpus = unmanaged_v_cpus self.compute_resources = compute_resources self.service_role = service_role self.tags = tags or {} self.poll_interval = poll_interval self.max_retries = max_retries or 120 self.aws_conn_id = aws_conn_id self.region_name = region_name self.deferrable = deferrable @cached_property
[docs] def hook(self): """Create and return a BatchClientHook.""" return BatchClientHook( aws_conn_id=self.aws_conn_id, region_name=self.region_name, )
[docs] def execute(self, context: Context): """Create an AWS batch compute environment.""" kwargs: dict[str, Any] = { "computeEnvironmentName": self.compute_environment_name, "type": self.environment_type, "state": self.state, "unmanagedvCpus": self.unmanaged_v_cpus, "computeResources": self.compute_resources, "serviceRole": self.service_role, "tags": self.tags, } response = self.hook.client.create_compute_environment(**trim_none_values(kwargs)) arn = response["computeEnvironmentArn"] if self.deferrable: self.defer( trigger=BatchCreateComputeEnvironmentTrigger( arn, self.poll_interval, self.max_retries, self.aws_conn_id, self.region_name ), method_name="execute_complete", ) self.log.info("AWS Batch compute environment created successfully") return arn
[docs] def execute_complete(self, context, event=None): if event["status"] != "success": raise AirflowException(f"Error while waiting for the compute environment to be ready: {event}") return event["value"]

Was this entry helpful?