Source code for airflow.providers.google.cloud.operators.dataproc

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"""This module contains Google Dataproc operators."""
# pylint: disable=C0302

import inspect
import ntpath
import os
import re
import time
import uuid
import warnings
from datetime import datetime, timedelta
from typing import Dict, List, Optional, Sequence, Set, Tuple, Union

from google.api_core.exceptions import AlreadyExists, NotFound
from google.api_core.retry import Retry, exponential_sleep_generator
from google.cloud.dataproc_v1beta2.types import (  # pylint: disable=no-name-in-module
    Cluster,
    Duration,
    FieldMask,
)
from google.protobuf.json_format import MessageToDict

from airflow.exceptions import AirflowException
from airflow.models import BaseOperator
from airflow.providers.google.cloud.hooks.dataproc import DataprocHook, DataProcJobBuilder
from airflow.providers.google.cloud.hooks.gcs import GCSHook
from airflow.utils import timezone
from airflow.utils.decorators import apply_defaults


# pylint: disable=too-many-instance-attributes
[docs]class ClusterGenerator: """ Create a new Dataproc Cluster. :param cluster_name: The name of the DataProc cluster to create. (templated) :type cluster_name: str :param project_id: The ID of the google cloud project in which to create the cluster. (templated) :type project_id: str :param num_workers: The # of workers to spin up. If set to zero will spin up cluster in a single node mode :type num_workers: int :param storage_bucket: The storage bucket to use, setting to None lets dataproc generate a custom one for you :type storage_bucket: str :param init_actions_uris: List of GCS uri's containing dataproc initialization scripts :type init_actions_uris: list[str] :param init_action_timeout: Amount of time executable scripts in init_actions_uris has to complete :type init_action_timeout: str :param metadata: dict of key-value google compute engine metadata entries to add to all instances :type metadata: dict :param image_version: the version of software inside the Dataproc cluster :type image_version: str :param custom_image: custom Dataproc image for more info see https://cloud.google.com/dataproc/docs/guides/dataproc-images :type custom_image: str :param custom_image_project_id: project id for the custom Dataproc image, for more info see https://cloud.google.com/dataproc/docs/guides/dataproc-images :type custom_image_project_id: str :param autoscaling_policy: The autoscaling policy used by the cluster. Only resource names including projectid and location (region) are valid. Example: ``projects/[projectId]/locations/[dataproc_region]/autoscalingPolicies/[policy_id]`` :type autoscaling_policy: str :param properties: dict of properties to set on config files (e.g. spark-defaults.conf), see https://cloud.google.com/dataproc/docs/reference/rest/v1/projects.regions.clusters#SoftwareConfig :type properties: dict :param optional_components: List of optional cluster components, for more info see https://cloud.google.com/dataproc/docs/reference/rest/v1/ClusterConfig#Component :type optional_components: list[str] :param num_masters: The # of master nodes to spin up :type num_masters: int :param master_machine_type: Compute engine machine type to use for the master node :type master_machine_type: str :param master_disk_type: Type of the boot disk for the master node (default is ``pd-standard``). Valid values: ``pd-ssd`` (Persistent Disk Solid State Drive) or ``pd-standard`` (Persistent Disk Hard Disk Drive). :type master_disk_type: str :param master_disk_size: Disk size for the master node :type master_disk_size: int :param worker_machine_type: Compute engine machine type to use for the worker nodes :type worker_machine_type: str :param worker_disk_type: Type of the boot disk for the worker node (default is ``pd-standard``). Valid values: ``pd-ssd`` (Persistent Disk Solid State Drive) or ``pd-standard`` (Persistent Disk Hard Disk Drive). :type worker_disk_type: str :param worker_disk_size: Disk size for the worker nodes :type worker_disk_size: int :param num_preemptible_workers: The # of preemptible worker nodes to spin up :type num_preemptible_workers: int :param labels: dict of labels to add to the cluster :type labels: dict :param zone: The zone where the cluster will be located. Set to None to auto-zone. (templated) :type zone: str :param network_uri: The network uri to be used for machine communication, cannot be specified with subnetwork_uri :type network_uri: str :param subnetwork_uri: The subnetwork uri to be used for machine communication, cannot be specified with network_uri :type subnetwork_uri: str :param internal_ip_only: If true, all instances in the cluster will only have internal IP addresses. This can only be enabled for subnetwork enabled networks :type internal_ip_only: bool :param tags: The GCE tags to add to all instances :type tags: list[str] :param region: The specified region where the dataproc cluster is created. :type region: str :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param service_account: The service account of the dataproc instances. :type service_account: str :param service_account_scopes: The URIs of service account scopes to be included. :type service_account_scopes: list[str] :param idle_delete_ttl: The longest duration that cluster would keep alive while staying idle. Passing this threshold will cause cluster to be auto-deleted. A duration in seconds. :type idle_delete_ttl: int :param auto_delete_time: The time when cluster will be auto-deleted. :type auto_delete_time: datetime.datetime :param auto_delete_ttl: The life duration of cluster, the cluster will be auto-deleted at the end of this duration. A duration in seconds. (If auto_delete_time is set this parameter will be ignored) :type auto_delete_ttl: int :param customer_managed_key: The customer-managed key used for disk encryption ``projects/[PROJECT_STORING_KEYS]/locations/[LOCATION]/keyRings/[KEY_RING_NAME]/cryptoKeys/[KEY_NAME]`` # noqa # pylint: disable=line-too-long :type customer_managed_key: str """ # pylint: disable=too-many-arguments,too-many-locals def __init__( self, project_id: str, num_workers: Optional[int] = None, zone: Optional[str] = None, network_uri: Optional[str] = None, subnetwork_uri: Optional[str] = None, internal_ip_only: Optional[bool] = None, tags: Optional[List[str]] = None, storage_bucket: Optional[str] = None, init_actions_uris: Optional[List[str]] = None, init_action_timeout: str = "10m", metadata: Optional[Dict] = None, custom_image: Optional[str] = None, custom_image_project_id: Optional[str] = None, image_version: Optional[str] = None, autoscaling_policy: Optional[str] = None, properties: Optional[Dict] = None, optional_components: Optional[List[str]] = None, num_masters: int = 1, master_machine_type: str = 'n1-standard-4', master_disk_type: str = 'pd-standard', master_disk_size: int = 1024, worker_machine_type: str = 'n1-standard-4', worker_disk_type: str = 'pd-standard', worker_disk_size: int = 1024, num_preemptible_workers: int = 0, service_account: Optional[str] = None, service_account_scopes: Optional[List[str]] = None, idle_delete_ttl: Optional[int] = None, auto_delete_time: Optional[datetime] = None, auto_delete_ttl: Optional[int] = None, customer_managed_key: Optional[str] = None, **kwargs, ) -> None: self.project_id = project_id self.num_masters = num_masters self.num_workers = num_workers self.num_preemptible_workers = num_preemptible_workers self.storage_bucket = storage_bucket self.init_actions_uris = init_actions_uris self.init_action_timeout = init_action_timeout self.metadata = metadata self.custom_image = custom_image self.custom_image_project_id = custom_image_project_id self.image_version = image_version self.properties = properties or {} self.optional_components = optional_components self.master_machine_type = master_machine_type self.master_disk_type = master_disk_type self.master_disk_size = master_disk_size self.autoscaling_policy = autoscaling_policy self.worker_machine_type = worker_machine_type self.worker_disk_type = worker_disk_type self.worker_disk_size = worker_disk_size self.zone = zone self.network_uri = network_uri self.subnetwork_uri = subnetwork_uri self.internal_ip_only = internal_ip_only self.tags = tags self.service_account = service_account self.service_account_scopes = service_account_scopes self.idle_delete_ttl = idle_delete_ttl self.auto_delete_time = auto_delete_time self.auto_delete_ttl = auto_delete_ttl self.customer_managed_key = customer_managed_key self.single_node = num_workers == 0 if self.custom_image and self.image_version: raise ValueError("The custom_image and image_version can't be both set") if self.single_node and self.num_preemptible_workers > 0: raise ValueError("Single node cannot have preemptible workers.")
[docs] def _get_init_action_timeout(self) -> dict: match = re.match(r"^(\d+)([sm])$", self.init_action_timeout) if match: val = float(match.group(1)) if match.group(2) == "s": return {"seconds": int(val)} elif match.group(2) == "m": return {"seconds": int(timedelta(minutes=val).total_seconds())} raise AirflowException( "DataprocClusterCreateOperator init_action_timeout"
" should be expressed in minutes or seconds. i.e. 10m, 30s" )
[docs] def _build_gce_cluster_config(self, cluster_data): if self.zone: zone_uri = 'https://www.googleapis.com/compute/v1/projects/{}/zones/{}'.format( self.project_id, self.zone ) cluster_data['gce_cluster_config']['zone_uri'] = zone_uri if self.metadata: cluster_data['gce_cluster_config']['metadata'] = self.metadata if self.network_uri: cluster_data['gce_cluster_config']['network_uri'] = self.network_uri if self.subnetwork_uri: cluster_data['gce_cluster_config']['subnetwork_uri'] = self.subnetwork_uri if self.internal_ip_only: if not self.subnetwork_uri: raise AirflowException("Set internal_ip_only to true only when you pass a subnetwork_uri.") cluster_data['gce_cluster_config']['internal_ip_only'] = True if self.tags: cluster_data['gce_cluster_config']['tags'] = self.tags if self.service_account: cluster_data['gce_cluster_config']['service_account'] = self.service_account if self.service_account_scopes: cluster_data['gce_cluster_config']['service_account_scopes'] = self.service_account_scopes return cluster_data
[docs] def _build_lifecycle_config(self, cluster_data): if self.idle_delete_ttl: cluster_data['lifecycle_config']['idle_delete_ttl'] = {"seconds": self.idle_delete_ttl} if self.auto_delete_time: utc_auto_delete_time = timezone.convert_to_utc(self.auto_delete_time) cluster_data['lifecycle_config']['auto_delete_time'] = utc_auto_delete_time.strftime( '%Y-%m-%dT%H:%M:%S.%fZ' ) elif self.auto_delete_ttl: cluster_data['lifecycle_config']['auto_delete_ttl'] = {"seconds": int(self.auto_delete_ttl)} return cluster_data
[docs] def _build_cluster_data(self): if self.zone: master_type_uri = ( f"projects/{self.project_id}/zones/{self.zone}/machineTypes/{self.master_machine_type}" ) worker_type_uri = ( f"projects/{self.project_id}/zones/{self.zone}/machineTypes/{self.worker_machine_type}" ) else: master_type_uri = self.master_machine_type worker_type_uri = self.worker_machine_type cluster_data = { 'gce_cluster_config': {}, 'master_config': { 'num_instances': self.num_masters, 'machine_type_uri': master_type_uri, 'disk_config': { 'boot_disk_type': self.master_disk_type, 'boot_disk_size_gb': self.master_disk_size, }, }, 'worker_config': { 'num_instances': self.num_workers, 'machine_type_uri': worker_type_uri, 'disk_config': { 'boot_disk_type': self.worker_disk_type, 'boot_disk_size_gb': self.worker_disk_size, }, }, 'secondary_worker_config': {}, 'software_config': {}, 'lifecycle_config': {}, 'encryption_config': {}, 'autoscaling_config': {}, } if self.num_preemptible_workers > 0: cluster_data['secondary_worker_config'] = { 'num_instances': self.num_preemptible_workers, 'machine_type_uri': worker_type_uri, 'disk_config': { 'boot_disk_type': self.worker_disk_type, 'boot_disk_size_gb': self.worker_disk_size, }, 'is_preemptible': True, } if self.storage_bucket: cluster_data['config_bucket'] = self.storage_bucket if self.image_version: cluster_data['software_config']['image_version'] = self.image_version elif self.custom_image: project_id = self.custom_image_project_id or self.project_id custom_image_url = ( 'https://www.googleapis.com/compute/beta/projects/' '{}/global/images/{}'.format(project_id, self.custom_image) ) cluster_data['master_config']['image_uri'] = custom_image_url if not self.single_node: cluster_data['worker_config']['image_uri'] = custom_image_url cluster_data = self._build_gce_cluster_config(cluster_data) if self.single_node: self.properties["dataproc:dataproc.allow.zero.workers"] = "true" if self.properties: cluster_data['software_config']['properties'] = self.properties if self.optional_components: cluster_data['software_config']['optional_components'] = self.optional_components cluster_data = self._build_lifecycle_config(cluster_data) if self.init_actions_uris: init_actions_dict = [ {'executable_file': uri, 'execution_timeout': self._get_init_action_timeout()} for uri in self.init_actions_uris ] cluster_data['initialization_actions'] = init_actions_dict if self.customer_managed_key: cluster_data['encryption_config'] = {'gce_pd_kms_key_name': self.customer_managed_key} if self.autoscaling_policy: cluster_data['autoscaling_config'] = {'policy_uri': self.autoscaling_policy} return cluster_data
[docs] def make(self): """ Helper method for easier migration. :return: Dict representing Dataproc cluster. """ return self._build_cluster_data()
# pylint: disable=too-many-instance-attributes
[docs]class DataprocCreateClusterOperator(BaseOperator): """ Create a new cluster on Google Cloud Dataproc. The operator will wait until the creation is successful or an error occurs in the creation process. If the cluster already exists and ``use_if_exists`` is True then the operator will: - if cluster state is ERROR then delete it if specified and raise error - if cluster state is CREATING wait for it and then check for ERROR state - if cluster state is DELETING wait for it and then create new cluster Please refer to https://cloud.google.com/dataproc/docs/reference/rest/v1/projects.regions.clusters for a detailed explanation on the different parameters. Most of the configuration parameters detailed in the link are available as a parameter to this operator. .. seealso:: For more information on how to use this operator, take a look at the guide: :ref:`howto/operator:DataprocCreateClusterOperator` :param project_id: The ID of the google cloud project in which to create the cluster. (templated) :type project_id: str :param cluster_name: Name of the cluster to create :type cluster_name: str :param labels: Labels that will be assigned to created cluster :type labels: Dict[str, str] :param cluster_config: Required. The cluster config to create. If a dict is provided, it must be of the same form as the protobuf message :class:`~google.cloud.dataproc_v1.types.ClusterConfig` :type cluster_config: Union[Dict, google.cloud.dataproc_v1.types.ClusterConfig] :param region: The specified region where the dataproc cluster is created. :type region: str :parm delete_on_error: If true the cluster will be deleted if created with ERROR state. Default value is true. :type delete_on_error: bool :parm use_if_exists: If true use existing cluster :type use_if_exists: bool :param request_id: Optional. A unique id used to identify the request. If the server receives two ``DeleteClusterRequest`` requests with the same id, then the second request will be ignored and the first ``google.longrunning.Operation`` created and stored in the backend is returned. :type request_id: str :param retry: A retry object used to retry requests. If ``None`` is specified, requests will not be retried. :type retry: google.api_core.retry.Retry :param timeout: The amount of time, in seconds, to wait for the request to complete. Note that if ``retry`` is specified, the timeout applies to each individual attempt. :type timeout: float :param metadata: Additional metadata that is provided to the method. :type metadata: Sequence[Tuple[str, str]] :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] """
[docs] template_fields = ( 'project_id', 'region', 'cluster_config', 'cluster_name', 'labels', 'impersonation_chain',
)
[docs] template_fields_renderers = {'cluster_config': 'json'}
@apply_defaults def __init__( # pylint: disable=too-many-arguments self, *, cluster_name: str, region: Optional[str] = None, project_id: Optional[str] = None, cluster_config: Optional[Dict] = None, labels: Optional[Dict] = None, request_id: Optional[str] = None, delete_on_error: bool = True, use_if_exists: bool = True, retry: Optional[Retry] = None, timeout: float = 1 * 60 * 60, metadata: Optional[Sequence[Tuple[str, str]]] = None, gcp_conn_id: str = "google_cloud_default", impersonation_chain: Optional[Union[str, Sequence[str]]] = None, **kwargs, ) -> None: if region is None: warnings.warn( "Default region value `global` will be deprecated. Please, provide region value.", DeprecationWarning, stacklevel=2, ) region = 'global' # TODO: remove one day if cluster_config is None: warnings.warn( "Passing cluster parameters by keywords to `{}` " "will be deprecated. Please provide cluster_config object using `cluster_config` parameter. " "You can use `airflow.dataproc.ClusterGenerator.generate_cluster` method to " "obtain cluster object.".format(type(self).__name__), DeprecationWarning, stacklevel=1, ) # Remove result of apply defaults if 'params' in kwargs: del kwargs['params'] # Create cluster object from kwargs if project_id is None: raise AirflowException( "project_id argument is required when building cluster from keywords parameters" ) kwargs["project_id"] = project_id cluster_config = ClusterGenerator(**kwargs).make() # Remove from kwargs cluster params passed for backward compatibility cluster_params = inspect.signature(ClusterGenerator.__init__).parameters for arg in cluster_params: if arg in kwargs: del kwargs[arg] super().__init__(**kwargs) self.cluster_config = cluster_config self.cluster_name = cluster_name self.labels = labels self.project_id = project_id self.region = region self.request_id = request_id self.retry = retry self.timeout = timeout self.metadata = metadata self.gcp_conn_id = gcp_conn_id self.delete_on_error = delete_on_error self.use_if_exists = use_if_exists self.impersonation_chain = impersonation_chain
[docs] def _create_cluster(self, hook: DataprocHook): operation = hook.create_cluster( project_id=self.project_id, region=self.region, cluster_name=self.cluster_name, labels=self.labels, cluster_config=self.cluster_config, request_id=self.request_id, retry=self.retry, timeout=self.timeout, metadata=self.metadata, ) cluster = operation.result() self.log.info("Cluster created.") return cluster
[docs] def _delete_cluster(self, hook): self.log.info("Deleting the cluster") hook.delete_cluster(region=self.region, cluster_name=self.cluster_name, project_id=self.project_id)
[docs] def _get_cluster(self, hook: DataprocHook) -> Cluster: return hook.get_cluster( project_id=self.project_id, region=self.region, cluster_name=self.cluster_name, retry=self.retry, timeout=self.timeout, metadata=self.metadata,
)
[docs] def _handle_error_state(self, hook: DataprocHook, cluster: Cluster) -> None: if cluster.status.state != cluster.status.ERROR: return self.log.info("Cluster is in ERROR state") gcs_uri = hook.diagnose_cluster( region=self.region, cluster_name=self.cluster_name, project_id=self.project_id ) self.log.info('Diagnostic information for cluster %s available at: %s', self.cluster_name, gcs_uri) if self.delete_on_error: self._delete_cluster(hook) raise AirflowException("Cluster was created but was in ERROR state.") raise AirflowException("Cluster was created but is in ERROR state")
[docs] def _wait_for_cluster_in_deleting_state(self, hook: DataprocHook) -> None: time_left = self.timeout for time_to_sleep in exponential_sleep_generator(initial=10, maximum=120): if time_left < 0: raise AirflowException(f"Cluster {self.cluster_name} is still DELETING state, aborting") time.sleep(time_to_sleep) time_left = time_left - time_to_sleep try: self._get_cluster(hook) except NotFound: break
[docs] def _wait_for_cluster_in_creating_state(self, hook: DataprocHook) -> Cluster: time_left = self.timeout cluster = self._get_cluster(hook) for time_to_sleep in exponential_sleep_generator(initial=10, maximum=120): if cluster.status.state != cluster.status.CREATING: break if time_left < 0: raise AirflowException(f"Cluster {self.cluster_name} is still CREATING state, aborting") time.sleep(time_to_sleep) time_left = time_left - time_to_sleep cluster = self._get_cluster(hook) return cluster
[docs] def execute(self, context) -> dict: self.log.info('Creating cluster: %s', self.cluster_name) hook = DataprocHook(gcp_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain) try: # First try to create a new cluster cluster = self._create_cluster(hook) except AlreadyExists: if not self.use_if_exists: raise self.log.info("Cluster already exists.") cluster = self._get_cluster(hook) # Check if cluster is not in ERROR state self._handle_error_state(hook, cluster) if cluster.status.state == cluster.status.CREATING: # Wait for cluster to be be created cluster = self._wait_for_cluster_in_creating_state(hook) self._handle_error_state(hook, cluster) elif cluster.status.state == cluster.status.DELETING: # Wait for cluster to be deleted self._wait_for_cluster_in_deleting_state(hook) # Create new cluster cluster = self._create_cluster(hook) self._handle_error_state(hook, cluster) return MessageToDict(cluster)
[docs]class DataprocScaleClusterOperator(BaseOperator): """ Scale, up or down, a cluster on Google Cloud Dataproc. The operator will wait until the cluster is re-scaled. **Example**: :: t1 = DataprocClusterScaleOperator( task_id='dataproc_scale', project_id='my-project', cluster_name='cluster-1', num_workers=10, num_preemptible_workers=10, graceful_decommission_timeout='1h', dag=dag) .. seealso:: For more detail on about scaling clusters have a look at the reference: https://cloud.google.com/dataproc/docs/concepts/configuring-clusters/scaling-clusters :param cluster_name: The name of the cluster to scale. (templated) :type cluster_name: str :param project_id: The ID of the google cloud project in which the cluster runs. (templated) :type project_id: str :param region: The region for the dataproc cluster. (templated) :type region: str :param num_workers: The new number of workers :type num_workers: int :param num_preemptible_workers: The new number of preemptible workers :type num_preemptible_workers: int :param graceful_decommission_timeout: Timeout for graceful YARN decommissioning. Maximum value is 1d :type graceful_decommission_timeout: str :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] """
[docs] template_fields = ['cluster_name', 'project_id', 'region', 'impersonation_chain']
@apply_defaults def __init__( self, *, cluster_name: str, project_id: Optional[str] = None, region: str = 'global', num_workers: int = 2, num_preemptible_workers: int = 0, graceful_decommission_timeout: Optional[str] = None, gcp_conn_id: str = "google_cloud_default", impersonation_chain: Optional[Union[str, Sequence[str]]] = None, **kwargs, ) -> None: super().__init__(**kwargs) self.project_id = project_id self.region = region self.cluster_name = cluster_name self.num_workers = num_workers self.num_preemptible_workers = num_preemptible_workers self.graceful_decommission_timeout = graceful_decommission_timeout self.gcp_conn_id = gcp_conn_id self.impersonation_chain = impersonation_chain # TODO: Remove one day warnings.warn( "The `{cls}` operator is deprecated, please use `DataprocUpdateClusterOperator` instead.".format( cls=type(self).__name__ ), DeprecationWarning, stacklevel=1, )
[docs] def _build_scale_cluster_data(self) -> dict: scale_data = { 'config': { 'worker_config': {'num_instances': self.num_workers}, 'secondary_worker_config': {'num_instances': self.num_preemptible_workers}, } } return scale_data
@property
[docs] def _graceful_decommission_timeout_object(self) -> Optional[Dict[str, int]]: if not self.graceful_decommission_timeout: return None timeout = None match = re.match(r"^(\d+)([smdh])$", self.graceful_decommission_timeout) if match: if match.group(2) == "s": timeout = int(match.group(1)) elif match.group(2) == "m": val = float(match.group(1)) timeout = int(timedelta(minutes=val).total_seconds()) elif match.group(2) == "h": val = float(match.group(1)) timeout = int(timedelta(hours=val).total_seconds()) elif match.group(2) == "d": val = float(match.group(1)) timeout = int(timedelta(days=val).total_seconds()) if not timeout: raise AirflowException( "DataprocClusterScaleOperator " " should be expressed in day, hours, minutes or seconds. " " i.e. 1d, 4h, 10m, 30s" ) return {'seconds': timeout}
[docs] def execute(self, context) -> None: """Scale, up or down, a cluster on Google Cloud Dataproc.""" self.log.info("Scaling cluster: %s", self.cluster_name) scaling_cluster_data = self._build_scale_cluster_data() update_mask = ["config.worker_config.num_instances", "config.secondary_worker_config.num_instances"] hook = DataprocHook(gcp_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain) operation = hook.update_cluster( project_id=self.project_id, location=self.region, cluster_name=self.cluster_name, cluster=scaling_cluster_data, graceful_decommission_timeout=self._graceful_decommission_timeout_object, update_mask={'paths': update_mask}, ) operation.result() self.log.info("Cluster scaling finished")
[docs]class DataprocDeleteClusterOperator(BaseOperator): """ Deletes a cluster in a project. :param project_id: Required. The ID of the Google Cloud project that the cluster belongs to. :type project_id: str :param region: Required. The Cloud Dataproc region in which to handle the request. :type region: str :param cluster_name: Required. The cluster name. :type cluster_name: str :param cluster_uuid: Optional. Specifying the ``cluster_uuid`` means the RPC should fail if cluster with specified UUID does not exist. :type cluster_uuid: str :param request_id: Optional. A unique id used to identify the request. If the server receives two ``DeleteClusterRequest`` requests with the same id, then the second request will be ignored and the first ``google.longrunning.Operation`` created and stored in the backend is returned. :type request_id: str :param retry: A retry object used to retry requests. If ``None`` is specified, requests will not be retried. :type retry: google.api_core.retry.Retry :param timeout: The amount of time, in seconds, to wait for the request to complete. Note that if ``retry`` is specified, the timeout applies to each individual attempt. :type timeout: float :param metadata: Additional metadata that is provided to the method. :type metadata: Sequence[Tuple[str, str]] :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] """
[docs] template_fields = ('impersonation_chain',)
@apply_defaults def __init__( self, *, project_id: str, region: str, cluster_name: str, cluster_uuid: Optional[str] = None, request_id: Optional[str] = None, retry: Optional[Retry] = None, timeout: Optional[float] = None, metadata: Optional[Sequence[Tuple[str, str]]] = None, gcp_conn_id: str = "google_cloud_default", impersonation_chain: Optional[Union[str, Sequence[str]]] = None, **kwargs, ): super().__init__(**kwargs) self.project_id = project_id self.region = region self.cluster_name = cluster_name self.cluster_uuid = cluster_uuid self.request_id = request_id self.retry = retry self.timeout = timeout self.metadata = metadata self.gcp_conn_id = gcp_conn_id self.impersonation_chain = impersonation_chain
[docs] def execute(self, context: dict) -> None: hook = DataprocHook(gcp_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain) self.log.info("Deleting cluster: %s", self.cluster_name) operation = hook.delete_cluster( project_id=self.project_id, region=self.region, cluster_name=self.cluster_name, cluster_uuid=self.cluster_uuid, request_id=self.request_id, retry=self.retry, timeout=self.timeout, metadata=self.metadata, ) operation.result() self.log.info("Cluster deleted.")
[docs]class DataprocJobBaseOperator(BaseOperator): """ The base class for operators that launch job on DataProc. :param job_name: The job name used in the DataProc cluster. This name by default is the task_id appended with the execution data, but can be templated. The name will always be appended with a random number to avoid name clashes. :type job_name: str :param cluster_name: The name of the DataProc cluster. :type cluster_name: str :param dataproc_properties: Map for the Hive properties. Ideal to put in default arguments (templated) :type dataproc_properties: dict :param dataproc_jars: HCFS URIs of jar files to add to the CLASSPATH of the Hive server and Hadoop MapReduce (MR) tasks. Can contain Hive SerDes and UDFs. (templated) :type dataproc_jars: list :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param delegate_to: The account to impersonate using domain-wide delegation of authority, if any. For this to work, the service account making the request must have domain-wide delegation enabled. :type delegate_to: str :param labels: The labels to associate with this job. Label keys must contain 1 to 63 characters, and must conform to RFC 1035. Label values may be empty, but, if present, must contain 1 to 63 characters, and must conform to RFC 1035. No more than 32 labels can be associated with a job. :type labels: dict :param region: The specified region where the dataproc cluster is created. :type region: str :param job_error_states: Job states that should be considered error states. Any states in this set will result in an error being raised and failure of the task. Eg, if the ``CANCELLED`` state should also be considered a task failure, pass in ``{'ERROR', 'CANCELLED'}``. Possible values are currently only ``'ERROR'`` and ``'CANCELLED'``, but could change in the future. Defaults to ``{'ERROR'}``. :type job_error_states: set :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] :param asynchronous: Flag to return after submitting the job to the Dataproc API. This is useful for submitting long running jobs and waiting on them asynchronously using the DataprocJobSensor :type asynchronous: bool :var dataproc_job_id: The actual "jobId" as submitted to the Dataproc API. This is useful for identifying or linking to the job in the Google Cloud Console Dataproc UI, as the actual "jobId" submitted to the Dataproc API is appended with an 8 character random string. :vartype dataproc_job_id: str """
[docs] job_type = ""
@apply_defaults def __init__( self, *, job_name: str = '{{task.task_id}}_{{ds_nodash}}', cluster_name: str = "cluster-1", dataproc_properties: Optional[Dict] = None, dataproc_jars: Optional[List[str]] = None, gcp_conn_id: str = 'google_cloud_default', delegate_to: Optional[str] = None, labels: Optional[Dict] = None, region: Optional[str] = None, job_error_states: Optional[Set[str]] = None, impersonation_chain: Optional[Union[str, Sequence[str]]] = None, asynchronous: bool = False, **kwargs, ) -> None: super().__init__(**kwargs) self.gcp_conn_id = gcp_conn_id self.delegate_to = delegate_to self.labels = labels self.job_name = job_name self.cluster_name = cluster_name self.dataproc_properties = dataproc_properties self.dataproc_jars = dataproc_jars if region is None: warnings.warn( "Default region value `global` will be deprecated. Please, provide region value.", DeprecationWarning, stacklevel=2, ) region = 'global' self.region = region self.job_error_states = job_error_states if job_error_states is not None else {'ERROR'} self.impersonation_chain = impersonation_chain self.hook = DataprocHook(gcp_conn_id=gcp_conn_id, impersonation_chain=impersonation_chain) self.project_id = self.hook.project_id self.job_template = None self.job = None self.dataproc_job_id = None self.asynchronous = asynchronous
[docs] def create_job_template(self): """Initialize `self.job_template` with default values""" self.job_template = DataProcJobBuilder( project_id=self.project_id, task_id=self.task_id, cluster_name=self.cluster_name, job_type=self.job_type, properties=self.dataproc_properties, ) self.job_template.set_job_name(self.job_name) self.job_template.add_jar_file_uris(self.dataproc_jars) self.job_template.add_labels(self.labels)
[docs] def _generate_job_template(self) -> str: if self.job_template: job = self.job_template.build() return job['job'] raise Exception("Create a job template before")
[docs] def execute(self, context): if self.job_template: self.job = self.job_template.build() self.dataproc_job_id = self.job["job"]["reference"]["job_id"] self.log.info('Submitting %s job %s', self.job_type, self.dataproc_job_id) job_object = self.hook.submit_job( project_id=self.project_id, job=self.job["job"], location=self.region ) job_id = job_object.reference.job_id self.log.info('Job %s submitted successfully.', job_id) if not self.asynchronous: self.log.info('Waiting for job %s to complete', job_id) self.hook.wait_for_job(job_id=job_id, location=self.region, project_id=self.project_id) self.log.info('Job %s completed successfully.', job_id) return job_id else: raise AirflowException("Create a job template before")
[docs] def on_kill(self) -> None: """ Callback called when the operator is killed. Cancel any running job. """ if self.dataproc_job_id: self.hook.cancel_job( project_id=self.project_id, job_id=self.dataproc_job_id, location=self.region
)
[docs]class DataprocSubmitPigJobOperator(DataprocJobBaseOperator): """ Start a Pig query Job on a Cloud DataProc cluster. The parameters of the operation will be passed to the cluster. It's a good practice to define dataproc_* parameters in the default_args of the dag like the cluster name and UDFs. .. code-block:: python default_args = { 'cluster_name': 'cluster-1', 'dataproc_pig_jars': [ 'gs://example/udf/jar/datafu/1.2.0/datafu.jar', 'gs://example/udf/jar/gpig/1.2/gpig.jar' ] } You can pass a pig script as string or file reference. Use variables to pass on variables for the pig script to be resolved on the cluster or use the parameters to be resolved in the script as template parameters. **Example**: :: t1 = DataProcPigOperator( task_id='dataproc_pig', query='a_pig_script.pig', variables={'out': 'gs://example/output/{{ds}}'}, dag=dag) .. seealso:: For more detail on about job submission have a look at the reference: https://cloud.google.com/dataproc/reference/rest/v1/projects.regions.jobs :param query: The query or reference to the query file (pg or pig extension). (templated) :type query: str :param query_uri: The HCFS URI of the script that contains the Pig queries. :type query_uri: str :param variables: Map of named parameters for the query. (templated) :type variables: dict """
[docs] template_fields = [ 'query', 'variables', 'job_name', 'cluster_name', 'region', 'dataproc_jars', 'dataproc_properties', 'impersonation_chain',
]
[docs] template_ext = ('.pg', '.pig')
[docs] ui_color = '#0273d4'
[docs] job_type = 'pig_job'
@apply_defaults def __init__( self, *, query: Optional[str] = None, query_uri: Optional[str] = None, variables: Optional[Dict] = None, **kwargs, ) -> None: # TODO: Remove one day warnings.warn( "The `{cls}` operator is deprecated, please use `DataprocSubmitJobOperator` instead. You can use" " `generate_job` method of `{cls}` to generate dictionary representing your job" " and use it with the new operator.".format(cls=type(self).__name__), DeprecationWarning, stacklevel=1, ) super().__init__(**kwargs) self.query = query self.query_uri = query_uri self.variables = variables
[docs] def generate_job(self): """ Helper method for easier migration to `DataprocSubmitJobOperator`. :return: Dict representing Dataproc job """ self.create_job_template() if self.query is None: self.job_template.add_query_uri(self.query_uri) else: self.job_template.add_query(self.query) self.job_template.add_variables(self.variables) return self._generate_job_template()
[docs] def execute(self, context): self.create_job_template() if self.query is None: self.job_template.add_query_uri(self.query_uri) else: self.job_template.add_query(self.query) self.job_template.add_variables(self.variables) super().execute(context)
[docs]class DataprocSubmitHiveJobOperator(DataprocJobBaseOperator): """ Start a Hive query Job on a Cloud DataProc cluster. :param query: The query or reference to the query file (q extension). :type query: str :param query_uri: The HCFS URI of the script that contains the Hive queries. :type query_uri: str :param variables: Map of named parameters for the query. :type variables: dict """
[docs] template_fields = [ 'query', 'variables', 'job_name', 'cluster_name', 'region', 'dataproc_jars', 'dataproc_properties', 'impersonation_chain',
]
[docs] template_ext = ('.q', '.hql')
[docs] ui_color = '#0273d4'
[docs] job_type = 'hive_job'
@apply_defaults def __init__( self, *, query: Optional[str] = None, query_uri: Optional[str] = None, variables: Optional[Dict] = None, **kwargs, ) -> None: # TODO: Remove one day warnings.warn( "The `{cls}` operator is deprecated, please use `DataprocSubmitJobOperator` instead. You can use" " `generate_job` method of `{cls}` to generate dictionary representing your job" " and use it with the new operator.".format(cls=type(self).__name__), DeprecationWarning, stacklevel=1, ) super().__init__(**kwargs) self.query = query self.query_uri = query_uri self.variables = variables if self.query is not None and self.query_uri is not None: raise AirflowException('Only one of `query` and `query_uri` can be passed.')
[docs] def generate_job(self): """ Helper method for easier migration to `DataprocSubmitJobOperator`. :return: Dict representing Dataproc job """ self.create_job_template() if self.query is None: self.job_template.add_query_uri(self.query_uri) else: self.job_template.add_query(self.query) self.job_template.add_variables(self.variables) return self._generate_job_template()
[docs] def execute(self, context): self.create_job_template() if self.query is None: self.job_template.add_query_uri(self.query_uri) else: self.job_template.add_query(self.query) self.job_template.add_variables(self.variables) super().execute(context)
[docs]class DataprocSubmitSparkSqlJobOperator(DataprocJobBaseOperator): """ Start a Spark SQL query Job on a Cloud DataProc cluster. :param query: The query or reference to the query file (q extension). (templated) :type query: str :param query_uri: The HCFS URI of the script that contains the SQL queries. :type query_uri: str :param variables: Map of named parameters for the query. (templated) :type variables: dict """
[docs] template_fields = [ 'query', 'variables', 'job_name', 'cluster_name', 'region', 'dataproc_jars', 'dataproc_properties', 'impersonation_chain',
]
[docs] template_ext = ('.q',)
[docs] ui_color = '#0273d4'
[docs] job_type = 'spark_sql_job'
@apply_defaults def __init__( self, *, query: Optional[str] = None, query_uri: Optional[str] = None, variables: Optional[Dict] = None, **kwargs, ) -> None: # TODO: Remove one day warnings.warn( "The `{cls}` operator is deprecated, please use `DataprocSubmitJobOperator` instead. You can use" " `generate_job` method of `{cls}` to generate dictionary representing your job" " and use it with the new operator.".format(cls=type(self).__name__), DeprecationWarning, stacklevel=1, ) super().__init__(**kwargs) self.query = query self.query_uri = query_uri self.variables = variables if self.query is not None and self.query_uri is not None: raise AirflowException('Only one of `query` and `query_uri` can be passed.')
[docs] def generate_job(self): """ Helper method for easier migration to `DataprocSubmitJobOperator`. :return: Dict representing Dataproc job """ self.create_job_template() if self.query is None: self.job_template.add_query_uri(self.query_uri) else: self.job_template.add_query(self.query) self.job_template.add_variables(self.variables) return self._generate_job_template()
[docs] def execute(self, context): self.create_job_template() if self.query is None: self.job_template.add_query_uri(self.query_uri) else: self.job_template.add_query(self.query) self.job_template.add_variables(self.variables) super().execute(context)
[docs]class DataprocSubmitSparkJobOperator(DataprocJobBaseOperator): """ Start a Spark Job on a Cloud DataProc cluster. :param main_jar: The HCFS URI of the jar file that contains the main class (use this or the main_class, not both together). :type main_jar: str :param main_class: Name of the job class. (use this or the main_jar, not both together). :type main_class: str :param arguments: Arguments for the job. (templated) :type arguments: list :param archives: List of archived files that will be unpacked in the work directory. Should be stored in Cloud Storage. :type archives: list :param files: List of files to be copied to the working directory :type files: list """
[docs] template_fields = [ 'arguments', 'job_name', 'cluster_name', 'region', 'dataproc_jars', 'dataproc_properties', 'impersonation_chain',
]
[docs] ui_color = '#0273d4'
[docs] job_type = 'spark_job'
@apply_defaults def __init__( self, *, main_jar: Optional[str] = None, main_class: Optional[str] = None, arguments: Optional[List] = None, archives: Optional[List] = None, files: Optional[List] = None, **kwargs, ) -> None: # TODO: Remove one day warnings.warn( "The `{cls}` operator is deprecated, please use `DataprocSubmitJobOperator` instead. You can use" " `generate_job` method of `{cls}` to generate dictionary representing your job" " and use it with the new operator.".format(cls=type(self).__name__), DeprecationWarning, stacklevel=1, ) super().__init__(**kwargs) self.main_jar = main_jar self.main_class = main_class self.arguments = arguments self.archives = archives self.files = files
[docs] def generate_job(self): """ Helper method for easier migration to `DataprocSubmitJobOperator`. :return: Dict representing Dataproc job """ self.create_job_template() self.job_template.set_main(self.main_jar, self.main_class) self.job_template.add_args(self.arguments) self.job_template.add_archive_uris(self.archives) self.job_template.add_file_uris(self.files) return self._generate_job_template()
[docs] def execute(self, context): self.create_job_template() self.job_template.set_main(self.main_jar, self.main_class) self.job_template.add_args(self.arguments) self.job_template.add_archive_uris(self.archives) self.job_template.add_file_uris(self.files) super().execute(context)
[docs]class DataprocSubmitHadoopJobOperator(DataprocJobBaseOperator): """ Start a Hadoop Job on a Cloud DataProc cluster. :param main_jar: The HCFS URI of the jar file containing the main class (use this or the main_class, not both together). :type main_jar: str :param main_class: Name of the job class. (use this or the main_jar, not both together). :type main_class: str :param arguments: Arguments for the job. (templated) :type arguments: list :param archives: List of archived files that will be unpacked in the work directory. Should be stored in Cloud Storage. :type archives: list :param files: List of files to be copied to the working directory :type files: list """
[docs] template_fields = [ 'arguments', 'job_name', 'cluster_name', 'region', 'dataproc_jars', 'dataproc_properties', 'impersonation_chain',
]
[docs] ui_color = '#0273d4'
[docs] job_type = 'hadoop_job'
@apply_defaults def __init__( self, *, main_jar: Optional[str] = None, main_class: Optional[str] = None, arguments: Optional[List] = None, archives: Optional[List] = None, files: Optional[List] = None, **kwargs, ) -> None: # TODO: Remove one day warnings.warn( "The `{cls}` operator is deprecated, please use `DataprocSubmitJobOperator` instead. You can use" " `generate_job` method of `{cls}` to generate dictionary representing your job" " and use it with the new operator.".format(cls=type(self).__name__), DeprecationWarning, stacklevel=1, ) super().__init__(**kwargs) self.main_jar = main_jar self.main_class = main_class self.arguments = arguments self.archives = archives self.files = files
[docs] def generate_job(self): """ Helper method for easier migration to `DataprocSubmitJobOperator`. :return: Dict representing Dataproc job """ self.create_job_template() self.job_template.set_main(self.main_jar, self.main_class) self.job_template.add_args(self.arguments) self.job_template.add_archive_uris(self.archives) self.job_template.add_file_uris(self.files) return self._generate_job_template()
[docs] def execute(self, context): self.create_job_template() self.job_template.set_main(self.main_jar, self.main_class) self.job_template.add_args(self.arguments) self.job_template.add_archive_uris(self.archives) self.job_template.add_file_uris(self.files) super().execute(context)
[docs]class DataprocSubmitPySparkJobOperator(DataprocJobBaseOperator): """ Start a PySpark Job on a Cloud DataProc cluster. :param main: [Required] The Hadoop Compatible Filesystem (HCFS) URI of the main Python file to use as the driver. Must be a .py file. (templated) :type main: str :param arguments: Arguments for the job. (templated) :type arguments: list :param archives: List of archived files that will be unpacked in the work directory. Should be stored in Cloud Storage. :type archives: list :param files: List of files to be copied to the working directory :type files: list :param pyfiles: List of Python files to pass to the PySpark framework. Supported file types: .py, .egg, and .zip :type pyfiles: list """
[docs] template_fields = [ 'main', 'arguments', 'job_name', 'cluster_name', 'region', 'dataproc_jars', 'dataproc_properties', 'impersonation_chain',
]
[docs] ui_color = '#0273d4'
[docs] job_type = 'pyspark_job'
@staticmethod
[docs] def _generate_temp_filename(filename): date = time.strftime('%Y%m%d%H%M%S') return "{}_{}_{}".format(date, str(uuid.uuid4())[:8], ntpath.basename(filename))
[docs] def _upload_file_temp(self, bucket, local_file): """Upload a local file to a Google Cloud Storage bucket.""" temp_filename = self._generate_temp_filename(local_file) if not bucket: raise AirflowException( "If you want Airflow to upload the local file to a temporary bucket, set " "the 'temp_bucket' key in the connection string" ) self.log.info("Uploading %s to %s", local_file, temp_filename) GCSHook( google_cloud_storage_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain ).upload( bucket_name=bucket, object_name=temp_filename, mime_type='application/x-python', filename=local_file, ) return f"gs://{bucket}/{temp_filename}"
@apply_defaults def __init__( self, *, main: str, arguments: Optional[List] = None, archives: Optional[List] = None, pyfiles: Optional[List] = None, files: Optional[List] = None, **kwargs, ) -> None: # TODO: Remove one day warnings.warn( "The `{cls}` operator is deprecated, please use `DataprocSubmitJobOperator` instead. You can use" " `generate_job` method of `{cls}` to generate dictionary representing your job" " and use it with the new operator.".format(cls=type(self).__name__), DeprecationWarning, stacklevel=1, ) super().__init__(**kwargs) self.main = main self.arguments = arguments self.archives = archives self.files = files self.pyfiles = pyfiles
[docs] def generate_job(self): """ Helper method for easier migration to `DataprocSubmitJobOperator`. :return: Dict representing Dataproc job """ self.create_job_template() # Check if the file is local, if that is the case, upload it to a bucket if os.path.isfile(self.main): cluster_info = self.hook.get_cluster( project_id=self.hook.project_id, region=self.region, cluster_name=self.cluster_name ) bucket = cluster_info['config']['config_bucket'] self.main = f"gs://{bucket}/{self.main}" self.job_template.set_python_main(self.main) self.job_template.add_args(self.arguments) self.job_template.add_archive_uris(self.archives) self.job_template.add_file_uris(self.files) self.job_template.add_python_file_uris(self.pyfiles) return self._generate_job_template()
[docs] def execute(self, context): self.create_job_template() # Check if the file is local, if that is the case, upload it to a bucket if os.path.isfile(self.main): cluster_info = self.hook.get_cluster( project_id=self.hook.project_id, region=self.region, cluster_name=self.cluster_name ) bucket = cluster_info['config']['config_bucket'] self.main = self._upload_file_temp(bucket, self.main) self.job_template.set_python_main(self.main) self.job_template.add_args(self.arguments) self.job_template.add_archive_uris(self.archives) self.job_template.add_file_uris(self.files) self.job_template.add_python_file_uris(self.pyfiles) super().execute(context)
[docs]class DataprocInstantiateWorkflowTemplateOperator(BaseOperator): """ Instantiate a WorkflowTemplate on Google Cloud Dataproc. The operator will wait until the WorkflowTemplate is finished executing. .. seealso:: Please refer to: https://cloud.google.com/dataproc/docs/reference/rest/v1beta2/projects.regions.workflowTemplates/instantiate :param template_id: The id of the template. (templated) :type template_id: str :param project_id: The ID of the google cloud project in which the template runs :type project_id: str :param region: The specified region where the dataproc cluster is created. :type region: str :param parameters: a map of parameters for Dataproc Template in key-value format: map (key: string, value: string) Example: { "date_from": "2019-08-01", "date_to": "2019-08-02"}. Values may not exceed 100 characters. Please refer to: https://cloud.google.com/dataproc/docs/concepts/workflows/workflow-parameters :type parameters: Dict[str, str] :param request_id: Optional. A unique id used to identify the request. If the server receives two ``SubmitJobRequest`` requests with the same id, then the second request will be ignored and the first ``Job`` created and stored in the backend is returned. It is recommended to always set this value to a UUID. :type request_id: str :param parameters: Optional. Map from parameter names to values that should be used for those parameters. Values may not exceed 100 characters. :type parameters: Dict[str, str] :param retry: A retry object used to retry requests. If ``None`` is specified, requests will not be retried. :type retry: google.api_core.retry.Retry :param timeout: The amount of time, in seconds, to wait for the request to complete. Note that if ``retry`` is specified, the timeout applies to each individual attempt. :type timeout: float :param metadata: Additional metadata that is provided to the method. :type metadata: Sequence[Tuple[str, str]] :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] """
[docs] template_fields = ['template_id', 'impersonation_chain']
@apply_defaults def __init__( # pylint: disable=too-many-arguments self, *, template_id: str, region: str, project_id: Optional[str] = None, version: Optional[int] = None, request_id: Optional[str] = None, parameters: Optional[Dict[str, str]] = None, retry: Optional[Retry] = None, timeout: Optional[float] = None, metadata: Optional[Sequence[Tuple[str, str]]] = None, gcp_conn_id: str = "google_cloud_default", impersonation_chain: Optional[Union[str, Sequence[str]]] = None, **kwargs, ) -> None: super().__init__(**kwargs) self.template_id = template_id self.parameters = parameters self.version = version self.project_id = project_id self.region = region self.retry = retry self.timeout = timeout self.metadata = metadata self.request_id = request_id self.gcp_conn_id = gcp_conn_id self.impersonation_chain = impersonation_chain
[docs] def execute(self, context): hook = DataprocHook(gcp_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain) self.log.info('Instantiating template %s', self.template_id) operation = hook.instantiate_workflow_template( project_id=self.project_id, location=self.region, template_name=self.template_id, version=self.version, request_id=self.request_id, parameters=self.parameters, retry=self.retry, timeout=self.timeout, metadata=self.metadata, ) operation.result() self.log.info('Template instantiated.')
[docs]class DataprocInstantiateInlineWorkflowTemplateOperator(BaseOperator): """ Instantiate a WorkflowTemplate Inline on Google Cloud Dataproc. The operator will wait until the WorkflowTemplate is finished executing. .. seealso:: Please refer to: https://cloud.google.com/dataproc/docs/reference/rest/v1beta2/projects.regions.workflowTemplates/instantiateInline :param template: The template contents. (templated) :type template: dict :param project_id: The ID of the google cloud project in which the template runs :type project_id: str :param region: The specified region where the dataproc cluster is created. :type region: str :param parameters: a map of parameters for Dataproc Template in key-value format: map (key: string, value: string) Example: { "date_from": "2019-08-01", "date_to": "2019-08-02"}. Values may not exceed 100 characters. Please refer to: https://cloud.google.com/dataproc/docs/concepts/workflows/workflow-parameters :type parameters: Dict[str, str] :param request_id: Optional. A unique id used to identify the request. If the server receives two ``SubmitJobRequest`` requests with the same id, then the second request will be ignored and the first ``Job`` created and stored in the backend is returned. It is recommended to always set this value to a UUID. :type request_id: str :param parameters: Optional. Map from parameter names to values that should be used for those parameters. Values may not exceed 100 characters. :type parameters: Dict[str, str] :param retry: A retry object used to retry requests. If ``None`` is specified, requests will not be retried. :type retry: google.api_core.retry.Retry :param timeout: The amount of time, in seconds, to wait for the request to complete. Note that if ``retry`` is specified, the timeout applies to each individual attempt. :type timeout: float :param metadata: Additional metadata that is provided to the method. :type metadata: Sequence[Tuple[str, str]] :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] """
[docs] template_fields = ['template', 'impersonation_chain']
[docs] template_fields_renderers = {"template": "json"}
@apply_defaults def __init__( self, *, template: Dict, region: str, project_id: Optional[str] = None, request_id: Optional[str] = None, retry: Optional[Retry] = None, timeout: Optional[float] = None, metadata: Optional[Sequence[Tuple[str, str]]] = None, gcp_conn_id: str = "google_cloud_default", impersonation_chain: Optional[Union[str, Sequence[str]]] = None, **kwargs, ) -> None: super().__init__(**kwargs) self.template = template self.project_id = project_id self.location = region self.template = template self.request_id = request_id self.retry = retry self.timeout = timeout self.metadata = metadata self.gcp_conn_id = gcp_conn_id self.impersonation_chain = impersonation_chain
[docs] def execute(self, context): self.log.info('Instantiating Inline Template') hook = DataprocHook(gcp_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain) operation = hook.instantiate_inline_workflow_template( template=self.template, project_id=self.project_id, location=self.location, request_id=self.request_id, retry=self.retry, timeout=self.timeout, metadata=self.metadata, ) operation.result() self.log.info('Template instantiated.')
[docs]class DataprocSubmitJobOperator(BaseOperator): """ Submits a job to a cluster. :param project_id: Required. The ID of the Google Cloud project that the job belongs to. :type project_id: str :param location: Required. The Cloud Dataproc region in which to handle the request. :type location: str :param job: Required. The job resource. If a dict is provided, it must be of the same form as the protobuf message :class:`~google.cloud.dataproc_v1beta2.types.Job` :type job: Dict :param request_id: Optional. A unique id used to identify the request. If the server receives two ``SubmitJobRequest`` requests with the same id, then the second request will be ignored and the first ``Job`` created and stored in the backend is returned. It is recommended to always set this value to a UUID. :type request_id: str :param retry: A retry object used to retry requests. If ``None`` is specified, requests will not be retried. :type retry: google.api_core.retry.Retry :param timeout: The amount of time, in seconds, to wait for the request to complete. Note that if ``retry`` is specified, the timeout applies to each individual attempt. :type timeout: float :param metadata: Additional metadata that is provided to the method. :type metadata: Sequence[Tuple[str, str]] :param gcp_conn_id: :type gcp_conn_id: str :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] :param asynchronous: Flag to return after submitting the job to the Dataproc API. This is useful for submitting long running jobs and waiting on them asynchronously using the DataprocJobSensor :type asynchronous: bool :param cancel_on_kill: Flag which indicates whether cancel the hook's job or not, when on_kill is called :type cancel_on_kill: bool :param wait_timeout: How many seconds wait for job to be ready. Used only if ``asynchronous`` is False :type wait_timeout: int """
[docs] template_fields = ('project_id', 'location', 'job', 'impersonation_chain')
[docs] template_fields_renderers = {"job": "json"}
@apply_defaults def __init__( self, *, project_id: str, location: str, job: Dict, request_id: Optional[str] = None, retry: Optional[Retry] = None, timeout: Optional[float] = None, metadata: Optional[Sequence[Tuple[str, str]]] = None, gcp_conn_id: str = "google_cloud_default", impersonation_chain: Optional[Union[str, Sequence[str]]] = None, asynchronous: bool = False, cancel_on_kill: bool = True, wait_timeout: Optional[int] = None, **kwargs, ) -> None: super().__init__(**kwargs) self.project_id = project_id self.location = location self.job = job self.request_id = request_id self.retry = retry self.timeout = timeout self.metadata = metadata self.gcp_conn_id = gcp_conn_id self.impersonation_chain = impersonation_chain self.asynchronous = asynchronous self.cancel_on_kill = cancel_on_kill self.hook: Optional[DataprocHook] = None self.job_id: Optional[str] = None self.wait_timeout = wait_timeout
[docs] def execute(self, context: Dict): self.log.info("Submitting job") self.hook = DataprocHook(gcp_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain) job_object = self.hook.submit_job( project_id=self.project_id, location=self.location, job=self.job, request_id=self.request_id, retry=self.retry, timeout=self.timeout, metadata=self.metadata, ) job_id = job_object.reference.job_id self.log.info('Job %s submitted successfully.', job_id) if not self.asynchronous: self.log.info('Waiting for job %s to complete', job_id) self.hook.wait_for_job( job_id=job_id, location=self.location, project_id=self.project_id, timeout=self.wait_timeout ) self.log.info('Job %s completed successfully.', job_id) self.job_id = job_id return self.job_id
[docs] def on_kill(self): if self.job_id and self.cancel_on_kill: self.hook.cancel_job(job_id=self.job_id, project_id=self.project_id, location=self.location)
[docs]class DataprocUpdateClusterOperator(BaseOperator): """ Updates a cluster in a project. :param project_id: Required. The ID of the Google Cloud project the cluster belongs to. :type project_id: str :param location: Required. The Cloud Dataproc region in which to handle the request. :type location: str :param cluster_name: Required. The cluster name. :type cluster_name: str :param cluster: Required. The changes to the cluster. If a dict is provided, it must be of the same form as the protobuf message :class:`~google.cloud.dataproc_v1beta2.types.Cluster` :type cluster: Union[Dict, google.cloud.dataproc_v1beta2.types.Cluster] :param update_mask: Required. Specifies the path, relative to ``Cluster``, of the field to update. For example, to change the number of workers in a cluster to 5, the ``update_mask`` parameter would be specified as ``config.worker_config.num_instances``, and the ``PATCH`` request body would specify the new value. If a dict is provided, it must be of the same form as the protobuf message :class:`~google.cloud.dataproc_v1beta2.types.FieldMask` :type update_mask: Union[Dict, google.cloud.dataproc_v1beta2.types.FieldMask] :param graceful_decommission_timeout: Optional. Timeout for graceful YARN decommissioning. Graceful decommissioning allows removing nodes from the cluster without interrupting jobs in progress. Timeout specifies how long to wait for jobs in progress to finish before forcefully removing nodes (and potentially interrupting jobs). Default timeout is 0 (for forceful decommission), and the maximum allowed timeout is 1 day. :type graceful_decommission_timeout: Union[Dict, google.cloud.dataproc_v1beta2.types.Duration] :param request_id: Optional. A unique id used to identify the request. If the server receives two ``UpdateClusterRequest`` requests with the same id, then the second request will be ignored and the first ``google.longrunning.Operation`` created and stored in the backend is returned. :type request_id: str :param retry: A retry object used to retry requests. If ``None`` is specified, requests will not be retried. :type retry: google.api_core.retry.Retry :param timeout: The amount of time, in seconds, to wait for the request to complete. Note that if ``retry`` is specified, the timeout applies to each individual attempt. :type timeout: float :param metadata: Additional metadata that is provided to the method. :type metadata: Sequence[Tuple[str, str]] :param gcp_conn_id: The connection ID to use connecting to Google Cloud. :type gcp_conn_id: str :param impersonation_chain: Optional service account to impersonate using short-term credentials, or chained list of accounts required to get the access_token of the last account in the list, which will be impersonated in the request. If set as a string, the account must grant the originating account the Service Account Token Creator IAM role. If set as a sequence, the identities from the list must grant Service Account Token Creator IAM role to the directly preceding identity, with first account from the list granting this role to the originating account (templated). :type impersonation_chain: Union[str, Sequence[str]] """
[docs] template_fields = ('impersonation_chain',)
@apply_defaults def __init__( # pylint: disable=too-many-arguments self, *, location: str, cluster_name: str, cluster: Union[Dict, Cluster], update_mask: Union[Dict, FieldMask], graceful_decommission_timeout: Union[Dict, Duration], request_id: Optional[str] = None, project_id: Optional[str] = None, retry: Retry = None, timeout: Optional[float] = None, metadata: Optional[Sequence[Tuple[str, str]]] = None, gcp_conn_id: str = "google_cloud_default", impersonation_chain: Optional[Union[str, Sequence[str]]] = None, **kwargs, ): super().__init__(**kwargs) self.project_id = project_id self.location = location self.cluster_name = cluster_name self.cluster = cluster self.update_mask = update_mask self.graceful_decommission_timeout = graceful_decommission_timeout self.request_id = request_id self.retry = retry self.timeout = timeout self.metadata = metadata self.gcp_conn_id = gcp_conn_id self.impersonation_chain = impersonation_chain
[docs] def execute(self, context: Dict): hook = DataprocHook(gcp_conn_id=self.gcp_conn_id, impersonation_chain=self.impersonation_chain) self.log.info("Updating %s cluster.", self.cluster_name) operation = hook.update_cluster( project_id=self.project_id, location=self.location, cluster_name=self.cluster_name, cluster=self.cluster, update_mask=self.update_mask, graceful_decommission_timeout=self.graceful_decommission_timeout, request_id=self.request_id, retry=self.retry, timeout=self.timeout, metadata=self.metadata, ) operation.result() self.log.info("Updated %s cluster.", self.cluster_name)

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