Source code for airflow.providers.amazon.aws.sensors.s3

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from __future__ import annotations

import fnmatch
import os
import re
from datetime import datetime
from typing import TYPE_CHECKING, Callable, Sequence

from deprecated import deprecated

if TYPE_CHECKING:
    from airflow.utils.context import Context

from airflow.compat.functools import cached_property
from airflow.exceptions import AirflowException
from airflow.providers.amazon.aws.hooks.s3 import S3Hook
from airflow.sensors.base import BaseSensorOperator, poke_mode_only


[docs]class S3KeySensor(BaseSensorOperator): """ Waits for one or multiple keys (a file-like instance on S3) to be present in a S3 bucket. The path is just a key/value pointer to a resource for the given S3 path. Note: S3 does not support folders directly, and only provides key/value pairs. .. seealso:: For more information on how to use this sensor, take a look at the guide: :ref:`howto/sensor:S3KeySensor` :param bucket_key: The key(s) being waited on. Supports full s3:// style url or relative path from root level. When it's specified as a full s3:// url, please leave bucket_name as `None` :param bucket_name: Name of the S3 bucket. Only needed when ``bucket_key`` is not provided as a full s3:// url. When specified, all the keys passed to ``bucket_key`` refers to this bucket :param wildcard_match: whether the bucket_key should be interpreted as a Unix wildcard pattern :param check_fn: Function that receives the list of the S3 objects, and returns a boolean: - ``True``: the criteria is met - ``False``: the criteria isn't met **Example**: Wait for any S3 object size more than 1 megabyte :: def check_fn(files: List) -> bool: return any(f.get('Size', 0) > 1048576 for f in files) :param aws_conn_id: a reference to the s3 connection :param verify: Whether or not to verify SSL certificates for S3 connection. By default SSL certificates are verified. You can provide the following values: - ``False``: do not validate SSL certificates. SSL will still be used (unless use_ssl is False), but SSL certificates will not be verified. - ``path/to/cert/bundle.pem``: A filename of the CA cert bundle to uses. You can specify this argument if you want to use a different CA cert bundle than the one used by botocore. """
[docs] template_fields: Sequence[str] = ("bucket_key", "bucket_name")
def __init__( self, *, bucket_key: str | list[str], bucket_name: str | None = None, wildcard_match: bool = False, check_fn: Callable[..., bool] | None = None, aws_conn_id: str = "aws_default", verify: str | bool | None = None, **kwargs, ): super().__init__(**kwargs) self.bucket_name = bucket_name self.bucket_key = bucket_key self.wildcard_match = wildcard_match self.check_fn = check_fn self.aws_conn_id = aws_conn_id self.verify = verify def _check_key(self, key): bucket_name, key = S3Hook.get_s3_bucket_key(self.bucket_name, key, "bucket_name", "bucket_key") self.log.info("Poking for key : s3://%s/%s", bucket_name, key) """ Set variable `files` which contains a list of dict which contains only the size If needed we might want to add other attributes later Format: [{ 'Size': int }] """ if self.wildcard_match: prefix = re.split(r"[\[\*\?]", key, 1)[0] keys = self.hook.get_file_metadata(prefix, bucket_name) key_matches = [k for k in keys if fnmatch.fnmatch(k["Key"], key)] if len(key_matches) == 0: return False # Reduce the set of metadata to size only files = list(map(lambda f: {"Size": f["Size"]}, key_matches)) else: obj = self.hook.head_object(key, bucket_name) if obj is None: return False files = [{"Size": obj["ContentLength"]}] if self.check_fn is not None: return self.check_fn(files) return True
[docs] def poke(self, context: Context): if isinstance(self.bucket_key, str): return self._check_key(self.bucket_key) else: return all(self._check_key(key) for key in self.bucket_key)
@deprecated(reason="use `hook` property instead.")
[docs] def get_hook(self) -> S3Hook: """Create and return an S3Hook""" return self.hook
@cached_property
[docs] def hook(self) -> S3Hook: return S3Hook(aws_conn_id=self.aws_conn_id, verify=self.verify)
@poke_mode_only
[docs]class S3KeysUnchangedSensor(BaseSensorOperator): """ Checks for changes in the number of objects at prefix in AWS S3 bucket and returns True if the inactivity period has passed with no increase in the number of objects. Note, this sensor will not behave correctly in reschedule mode, as the state of the listed objects in the S3 bucket will be lost between rescheduled invocations. .. seealso:: For more information on how to use this sensor, take a look at the guide: :ref:`howto/sensor:S3KeysUnchangedSensor` :param bucket_name: Name of the S3 bucket :param prefix: The prefix being waited on. Relative path from bucket root level. :param aws_conn_id: a reference to the s3 connection :param verify: Whether or not to verify SSL certificates for S3 connection. By default SSL certificates are verified. You can provide the following values: - ``False``: do not validate SSL certificates. SSL will still be used (unless use_ssl is False), but SSL certificates will not be verified. - ``path/to/cert/bundle.pem``: A filename of the CA cert bundle to uses. You can specify this argument if you want to use a different CA cert bundle than the one used by botocore. :param inactivity_period: The total seconds of inactivity to designate keys unchanged. Note, this mechanism is not real time and this operator may not return until a poke_interval after this period has passed with no additional objects sensed. :param min_objects: The minimum number of objects needed for keys unchanged sensor to be considered valid. :param previous_objects: The set of object ids found during the last poke. :param allow_delete: Should this sensor consider objects being deleted between pokes valid behavior. If true a warning message will be logged when this happens. If false an error will be raised. """
[docs] template_fields: Sequence[str] = ("bucket_name", "prefix")
def __init__( self, *, bucket_name: str, prefix: str, aws_conn_id: str = "aws_default", verify: bool | str | None = None, inactivity_period: float = 60 * 60, min_objects: int = 1, previous_objects: set[str] | None = None, allow_delete: bool = True, **kwargs, ) -> None: super().__init__(**kwargs) self.bucket_name = bucket_name self.prefix = prefix if inactivity_period < 0: raise ValueError("inactivity_period must be non-negative") self.inactivity_period = inactivity_period self.min_objects = min_objects self.previous_objects = previous_objects or set() self.inactivity_seconds = 0 self.allow_delete = allow_delete self.aws_conn_id = aws_conn_id self.verify = verify self.last_activity_time: datetime | None = None @cached_property
[docs] def hook(self): """Returns S3Hook.""" return S3Hook(aws_conn_id=self.aws_conn_id, verify=self.verify)
[docs] def is_keys_unchanged(self, current_objects: set[str]) -> bool: """ Checks whether new objects have been uploaded and the inactivity_period has passed and updates the state of the sensor accordingly. :param current_objects: set of object ids in bucket during last poke. """ current_num_objects = len(current_objects) if current_objects > self.previous_objects: # When new objects arrived, reset the inactivity_seconds # and update previous_objects for the next poke. self.log.info( "New objects found at %s, resetting last_activity_time.", os.path.join(self.bucket_name, self.prefix), ) self.log.debug("New objects: %s", current_objects - self.previous_objects) self.last_activity_time = datetime.now() self.inactivity_seconds = 0 self.previous_objects = current_objects return False if self.previous_objects - current_objects: # During the last poke interval objects were deleted. if self.allow_delete: deleted_objects = self.previous_objects - current_objects self.previous_objects = current_objects self.last_activity_time = datetime.now() self.log.info( "Objects were deleted during the last poke interval. Updating the " "file counter and resetting last_activity_time:\n%s", deleted_objects, ) return False raise AirflowException( f"Illegal behavior: objects were deleted in" f" {os.path.join(self.bucket_name, self.prefix)} between pokes." ) if self.last_activity_time: self.inactivity_seconds = int((datetime.now() - self.last_activity_time).total_seconds()) else: # Handles the first poke where last inactivity time is None. self.last_activity_time = datetime.now() self.inactivity_seconds = 0 if self.inactivity_seconds >= self.inactivity_period: path = os.path.join(self.bucket_name, self.prefix) if current_num_objects >= self.min_objects: self.log.info( "SUCCESS: \nSensor found %s objects at %s.\n" "Waited at least %s seconds, with no new objects uploaded.", current_num_objects, path, self.inactivity_period, ) return True self.log.error("FAILURE: Inactivity Period passed, not enough objects found in %s", path) return False return False
[docs] def poke(self, context: Context): return self.is_keys_unchanged(set(self.hook.list_keys(self.bucket_name, prefix=self.prefix)))

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