#
# 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.
import collections
import os
import tarfile
import tempfile
import time
import warnings
from functools import partial
from typing import Any, Callable, Dict, Generator, List, Optional, Set
from botocore.exceptions import ClientError
from airflow.exceptions import AirflowException
from airflow.providers.amazon.aws.hooks.base_aws import AwsBaseHook
from airflow.providers.amazon.aws.hooks.logs import AwsLogsHook
from airflow.providers.amazon.aws.hooks.s3 import S3Hook
from airflow.utils import timezone
[docs]class LogState:
"""
Enum-style class holding all possible states of CloudWatch log streams.
https://sagemaker.readthedocs.io/en/stable/session.html#sagemaker.session.LogState
"""
# Position is a tuple that includes the last read timestamp and the number of items that were read
# at that time. This is used to figure out which event to start with on the next read.
[docs]Position = collections.namedtuple('Position', ['timestamp', 'skip'])
[docs]def argmin(arr, f: Callable) -> Optional[int]:
"""Return the index, i, in arr that minimizes f(arr[i])"""
min_value = None
min_idx = None
for idx, item in enumerate(arr):
if item is not None:
if min_value is None or f(item) < min_value:
min_value = f(item)
min_idx = idx
return min_idx
[docs]def secondary_training_status_changed(current_job_description: dict, prev_job_description: dict) -> bool:
"""
Returns true if training job's secondary status message has changed.
:param current_job_description: Current job description, returned from DescribeTrainingJob call.
:type current_job_description: dict
:param prev_job_description: Previous job description, returned from DescribeTrainingJob call.
:type prev_job_description: dict
:return: Whether the secondary status message of a training job changed or not.
"""
current_secondary_status_transitions = current_job_description.get('SecondaryStatusTransitions')
if current_secondary_status_transitions is None or len(current_secondary_status_transitions) == 0:
return False
prev_job_secondary_status_transitions = (
prev_job_description.get('SecondaryStatusTransitions') if prev_job_description is not None else None
)
last_message = (
prev_job_secondary_status_transitions[-1]['StatusMessage']
if prev_job_secondary_status_transitions is not None
and len(prev_job_secondary_status_transitions) > 0
else ''
)
message = current_job_description['SecondaryStatusTransitions'][-1]['StatusMessage']
return message != last_message
[docs]def secondary_training_status_message(
job_description: Dict[str, List[dict]], prev_description: Optional[dict]
) -> str:
"""
Returns a string contains start time and the secondary training job status message.
:param job_description: Returned response from DescribeTrainingJob call
:type job_description: dict
:param prev_description: Previous job description from DescribeTrainingJob call
:type prev_description: dict
:return: Job status string to be printed.
"""
current_transitions = job_description.get('SecondaryStatusTransitions')
if current_transitions is None or len(current_transitions) == 0:
return ''
prev_transitions_num = 0
if prev_description is not None:
if prev_description.get('SecondaryStatusTransitions') is not None:
prev_transitions_num = len(prev_description['SecondaryStatusTransitions'])
transitions_to_print = (
current_transitions[-1:]
if len(current_transitions) == prev_transitions_num
else current_transitions[prev_transitions_num - len(current_transitions) :]
)
status_strs = []
for transition in transitions_to_print:
message = transition['StatusMessage']
time_str = timezone.convert_to_utc(job_description['LastModifiedTime']).strftime('%Y-%m-%d %H:%M:%S')
status_strs.append(f"{time_str} {transition['Status']} - {message}")
return '\n'.join(status_strs)
[docs]class SageMakerHook(AwsBaseHook):
"""
Interact with Amazon SageMaker.
Additional arguments (such as ``aws_conn_id``) may be specified and
are passed down to the underlying AwsBaseHook.
.. seealso::
:class:`~airflow.providers.amazon.aws.hooks.base_aws.AwsBaseHook`
"""
[docs] non_terminal_states = {'InProgress', 'Stopping'}
[docs] endpoint_non_terminal_states = {'Creating', 'Updating', 'SystemUpdating', 'RollingBack', 'Deleting'}
[docs] failed_states = {'Failed'}
def __init__(self, *args, **kwargs):
super().__init__(client_type='sagemaker', *args, **kwargs)
self.s3_hook = S3Hook(aws_conn_id=self.aws_conn_id)
self.logs_hook = AwsLogsHook(aws_conn_id=self.aws_conn_id)
[docs] def tar_and_s3_upload(self, path: str, key: str, bucket: str) -> None:
"""
Tar the local file or directory and upload to s3
:param path: local file or directory
:type path: str
:param key: s3 key
:type key: str
:param bucket: s3 bucket
:type bucket: str
:return: None
"""
with tempfile.TemporaryFile() as temp_file:
if os.path.isdir(path):
files = [os.path.join(path, name) for name in os.listdir(path)]
else:
files = [path]
with tarfile.open(mode='w:gz', fileobj=temp_file) as tar_file:
for f in files:
tar_file.add(f, arcname=os.path.basename(f))
temp_file.seek(0)
self.s3_hook.load_file_obj(temp_file, key, bucket, replace=True)
[docs] def check_s3_url(self, s3url: str) -> bool:
"""
Check if an S3 URL exists
:param s3url: S3 url
:type s3url: str
:rtype: bool
"""
bucket, key = S3Hook.parse_s3_url(s3url)
if not self.s3_hook.check_for_bucket(bucket_name=bucket):
raise AirflowException(f"The input S3 Bucket {bucket} does not exist ")
if (
key
and not self.s3_hook.check_for_key(key=key, bucket_name=bucket)
and not self.s3_hook.check_for_prefix(prefix=key, bucket_name=bucket, delimiter='/')
):
# check if s3 key exists in the case user provides a single file
# or if s3 prefix exists in the case user provides multiple files in
# a prefix
raise AirflowException(
f"The input S3 Key or Prefix {s3url} does not exist in the Bucket {bucket}"
)
return True
[docs] def check_training_config(self, training_config: dict) -> None:
"""
Check if a training configuration is valid
:param training_config: training_config
:type training_config: dict
:return: None
"""
if "InputDataConfig" in training_config:
for channel in training_config['InputDataConfig']:
if "S3DataSource" in channel['DataSource']:
self.check_s3_url(channel['DataSource']['S3DataSource']['S3Uri'])
[docs] def check_tuning_config(self, tuning_config: dict) -> None:
"""
Check if a tuning configuration is valid
:param tuning_config: tuning_config
:type tuning_config: dict
:return: None
"""
for channel in tuning_config['TrainingJobDefinition']['InputDataConfig']:
if "S3DataSource" in channel['DataSource']:
self.check_s3_url(channel['DataSource']['S3DataSource']['S3Uri'])
[docs] def get_log_conn(self):
"""
This method is deprecated.
Please use :py:meth:`airflow.providers.amazon.aws.hooks.logs.AwsLogsHook.get_conn` instead.
"""
warnings.warn(
"Method `get_log_conn` has been deprecated. "
"Please use `airflow.providers.amazon.aws.hooks.logs.AwsLogsHook.get_conn` instead.",
category=DeprecationWarning,
stacklevel=2,
)
return self.logs_hook.get_conn()
[docs] def log_stream(self, log_group, stream_name, start_time=0, skip=0):
"""
This method is deprecated.
Please use
:py:meth:`airflow.providers.amazon.aws.hooks.logs.AwsLogsHook.get_log_events` instead.
"""
warnings.warn(
"Method `log_stream` has been deprecated. "
"Please use "
"`airflow.providers.amazon.aws.hooks.logs.AwsLogsHook.get_log_events` instead.",
category=DeprecationWarning,
stacklevel=2,
)
return self.logs_hook.get_log_events(log_group, stream_name, start_time, skip)
[docs] def multi_stream_iter(self, log_group: str, streams: list, positions=None) -> Generator:
"""
Iterate over the available events coming from a set of log streams in a single log group
interleaving the events from each stream so they're yielded in timestamp order.
:param log_group: The name of the log group.
:type log_group: str
:param streams: A list of the log stream names. The position of the stream in this list is
the stream number.
:type streams: list
:param positions: A list of pairs of (timestamp, skip) which represents the last record
read from each stream.
:type positions: list
:return: A tuple of (stream number, cloudwatch log event).
"""
positions = positions or {s: Position(timestamp=0, skip=0) for s in streams}
event_iters = [
self.logs_hook.get_log_events(log_group, s, positions[s].timestamp, positions[s].skip)
for s in streams
]
events: List[Optional[Any]] = []
for event_stream in event_iters:
if not event_stream:
events.append(None)
continue
try:
events.append(next(event_stream))
except StopIteration:
events.append(None)
while any(events):
i = argmin(events, lambda x: x['timestamp'] if x else 9999999999) or 0
yield i, events[i]
try:
events[i] = next(event_iters[i])
except StopIteration:
events[i] = None
[docs] def create_training_job(
self,
config: dict,
wait_for_completion: bool = True,
print_log: bool = True,
check_interval: int = 30,
max_ingestion_time: Optional[int] = None,
):
"""
Create a training job
:param config: the config for training
:type config: dict
:param wait_for_completion: if the program should keep running until job finishes
:type wait_for_completion: bool
:param check_interval: the time interval in seconds which the operator
will check the status of any SageMaker job
:type check_interval: int
:param max_ingestion_time: the maximum ingestion time in seconds. Any
SageMaker jobs that run longer than this will fail. Setting this to
None implies no timeout for any SageMaker job.
:type max_ingestion_time: int
:return: A response to training job creation
"""
self.check_training_config(config)
response = self.get_conn().create_training_job(**config)
if print_log:
self.check_training_status_with_log(
config['TrainingJobName'],
self.non_terminal_states,
self.failed_states,
wait_for_completion,
check_interval,
max_ingestion_time,
)
elif wait_for_completion:
describe_response = self.check_status(
config['TrainingJobName'],
'TrainingJobStatus',
self.describe_training_job,
check_interval,
max_ingestion_time,
)
billable_time = (
describe_response['TrainingEndTime'] - describe_response['TrainingStartTime']
) * describe_response['ResourceConfig']['InstanceCount']
self.log.info('Billable seconds: %d', int(billable_time.total_seconds()) + 1)
return response
[docs] def create_tuning_job(
self,
config: dict,
wait_for_completion: bool = True,
check_interval: int = 30,
max_ingestion_time: Optional[int] = None,
):
"""
Create a tuning job
:param config: the config for tuning
:type config: dict
:param wait_for_completion: if the program should keep running until job finishes
:type wait_for_completion: bool
:param check_interval: the time interval in seconds which the operator
will check the status of any SageMaker job
:type check_interval: int
:param max_ingestion_time: the maximum ingestion time in seconds. Any
SageMaker jobs that run longer than this will fail. Setting this to
None implies no timeout for any SageMaker job.
:type max_ingestion_time: int
:return: A response to tuning job creation
"""
self.check_tuning_config(config)
response = self.get_conn().create_hyper_parameter_tuning_job(**config)
if wait_for_completion:
self.check_status(
config['HyperParameterTuningJobName'],
'HyperParameterTuningJobStatus',
self.describe_tuning_job,
check_interval,
max_ingestion_time,
)
return response
[docs] def create_processing_job(
self,
config: dict,
wait_for_completion: bool = True,
check_interval: int = 30,
max_ingestion_time: Optional[int] = None,
):
"""
Create a processing job
:param config: the config for processing job
:type config: dict
:param wait_for_completion: if the program should keep running until job finishes
:type wait_for_completion: bool
:param check_interval: the time interval in seconds which the operator
will check the status of any SageMaker job
:type check_interval: int
:param max_ingestion_time: the maximum ingestion time in seconds. Any
SageMaker jobs that run longer than this will fail. Setting this to
None implies no timeout for any SageMaker job.
:type max_ingestion_time: int
:return: A response to transform job creation
"""
response = self.get_conn().create_processing_job(**config)
if wait_for_completion:
self.check_status(
config['ProcessingJobName'],
'ProcessingJobStatus',
self.describe_processing_job,
check_interval,
max_ingestion_time,
)
return response
[docs] def create_model(self, config: dict):
"""
Create a model job
:param config: the config for model
:type config: dict
:return: A response to model creation
"""
return self.get_conn().create_model(**config)
[docs] def create_endpoint_config(self, config: dict):
"""
Create an endpoint config
:param config: the config for endpoint-config
:type config: dict
:return: A response to endpoint config creation
"""
return self.get_conn().create_endpoint_config(**config)
[docs] def create_endpoint(
self,
config: dict,
wait_for_completion: bool = True,
check_interval: int = 30,
max_ingestion_time: Optional[int] = None,
):
"""
Create an endpoint
:param config: the config for endpoint
:type config: dict
:param wait_for_completion: if the program should keep running until job finishes
:type wait_for_completion: bool
:param check_interval: the time interval in seconds which the operator
will check the status of any SageMaker job
:type check_interval: int
:param max_ingestion_time: the maximum ingestion time in seconds. Any
SageMaker jobs that run longer than this will fail. Setting this to
None implies no timeout for any SageMaker job.
:type max_ingestion_time: int
:return: A response to endpoint creation
"""
response = self.get_conn().create_endpoint(**config)
if wait_for_completion:
self.check_status(
config['EndpointName'],
'EndpointStatus',
self.describe_endpoint,
check_interval,
max_ingestion_time,
non_terminal_states=self.endpoint_non_terminal_states,
)
return response
[docs] def update_endpoint(
self,
config: dict,
wait_for_completion: bool = True,
check_interval: int = 30,
max_ingestion_time: Optional[int] = None,
):
"""
Update an endpoint
:param config: the config for endpoint
:type config: dict
:param wait_for_completion: if the program should keep running until job finishes
:type wait_for_completion: bool
:param check_interval: the time interval in seconds which the operator
will check the status of any SageMaker job
:type check_interval: int
:param max_ingestion_time: the maximum ingestion time in seconds. Any
SageMaker jobs that run longer than this will fail. Setting this to
None implies no timeout for any SageMaker job.
:type max_ingestion_time: int
:return: A response to endpoint update
"""
response = self.get_conn().update_endpoint(**config)
if wait_for_completion:
self.check_status(
config['EndpointName'],
'EndpointStatus',
self.describe_endpoint,
check_interval,
max_ingestion_time,
non_terminal_states=self.endpoint_non_terminal_states,
)
return response
[docs] def describe_training_job(self, name: str):
"""
Return the training job info associated with the name
:param name: the name of the training job
:type name: str
:return: A dict contains all the training job info
"""
return self.get_conn().describe_training_job(TrainingJobName=name)
[docs] def describe_training_job_with_log(
self,
job_name: str,
positions,
stream_names: list,
instance_count: int,
state: int,
last_description: dict,
last_describe_job_call: float,
):
"""Return the training job info associated with job_name and print CloudWatch logs"""
log_group = '/aws/sagemaker/TrainingJobs'
if len(stream_names) < instance_count:
# Log streams are created whenever a container starts writing to stdout/err, so this list
# may be dynamic until we have a stream for every instance.
logs_conn = self.logs_hook.get_conn()
try:
streams = logs_conn.describe_log_streams(
logGroupName=log_group,
logStreamNamePrefix=job_name + '/',
orderBy='LogStreamName',
limit=instance_count,
)
stream_names = [s['logStreamName'] for s in streams['logStreams']]
positions.update(
[(s, Position(timestamp=0, skip=0)) for s in stream_names if s not in positions]
)
except logs_conn.exceptions.ResourceNotFoundException:
# On the very first training job run on an account, there's no log group until
# the container starts logging, so ignore any errors thrown about that
pass
if len(stream_names) > 0:
for idx, event in self.multi_stream_iter(log_group, stream_names, positions):
self.log.info(event['message'])
ts, count = positions[stream_names[idx]]
if event['timestamp'] == ts:
positions[stream_names[idx]] = Position(timestamp=ts, skip=count + 1)
else:
positions[stream_names[idx]] = Position(timestamp=event['timestamp'], skip=1)
if state == LogState.COMPLETE:
return state, last_description, last_describe_job_call
if state == LogState.JOB_COMPLETE:
state = LogState.COMPLETE
elif time.monotonic() - last_describe_job_call >= 30:
description = self.describe_training_job(job_name)
last_describe_job_call = time.monotonic()
if secondary_training_status_changed(description, last_description):
self.log.info(secondary_training_status_message(description, last_description))
last_description = description
status = description['TrainingJobStatus']
if status not in self.non_terminal_states:
state = LogState.JOB_COMPLETE
return state, last_description, last_describe_job_call
[docs] def describe_tuning_job(self, name: str) -> dict:
"""
Return the tuning job info associated with the name
:param name: the name of the tuning job
:type name: str
:return: A dict contains all the tuning job info
"""
return self.get_conn().describe_hyper_parameter_tuning_job(HyperParameterTuningJobName=name)
[docs] def describe_model(self, name: str) -> dict:
"""
Return the SageMaker model info associated with the name
:param name: the name of the SageMaker model
:type name: str
:return: A dict contains all the model info
"""
return self.get_conn().describe_model(ModelName=name)
[docs] def describe_processing_job(self, name: str) -> dict:
"""
Return the processing job info associated with the name
:param name: the name of the processing job
:type name: str
:return: A dict contains all the processing job info
"""
return self.get_conn().describe_processing_job(ProcessingJobName=name)
[docs] def describe_endpoint_config(self, name: str) -> dict:
"""
Return the endpoint config info associated with the name
:param name: the name of the endpoint config
:type name: str
:return: A dict contains all the endpoint config info
"""
return self.get_conn().describe_endpoint_config(EndpointConfigName=name)
[docs] def describe_endpoint(self, name: str) -> dict:
"""
:param name: the name of the endpoint
:type name: str
:return: A dict contains all the endpoint info
"""
return self.get_conn().describe_endpoint(EndpointName=name)
[docs] def check_status(
self,
job_name: str,
key: str,
describe_function: Callable,
check_interval: int,
max_ingestion_time: Optional[int] = None,
non_terminal_states: Optional[Set] = None,
):
"""
Check status of a SageMaker job
:param job_name: name of the job to check status
:type job_name: str
:param key: the key of the response dict
that points to the state
:type key: str
:param describe_function: the function used to retrieve the status
:type describe_function: python callable
:param args: the arguments for the function
:param check_interval: the time interval in seconds which the operator
will check the status of any SageMaker job
:type check_interval: int
:param max_ingestion_time: the maximum ingestion time in seconds. Any
SageMaker jobs that run longer than this will fail. Setting this to
None implies no timeout for any SageMaker job.
:type max_ingestion_time: int
:param non_terminal_states: the set of nonterminal states
:type non_terminal_states: set
:return: response of describe call after job is done
"""
if not non_terminal_states:
non_terminal_states = self.non_terminal_states
sec = 0
running = True
while running:
time.sleep(check_interval)
sec += check_interval
try:
response = describe_function(job_name)
status = response[key]
self.log.info('Job still running for %s seconds... current status is %s', sec, status)
except KeyError:
raise AirflowException('Could not get status of the SageMaker job')
except ClientError:
raise AirflowException('AWS request failed, check logs for more info')
if status in non_terminal_states:
running = True
elif status in self.failed_states:
raise AirflowException(f"SageMaker job failed because {response['FailureReason']}")
else:
running = False
if max_ingestion_time and sec > max_ingestion_time:
# ensure that the job gets killed if the max ingestion time is exceeded
raise AirflowException(f'SageMaker job took more than {max_ingestion_time} seconds')
self.log.info('SageMaker Job completed')
response = describe_function(job_name)
return response
[docs] def check_training_status_with_log(
self,
job_name: str,
non_terminal_states: set,
failed_states: set,
wait_for_completion: bool,
check_interval: int,
max_ingestion_time: Optional[int] = None,
):
"""
Display the logs for a given training job, optionally tailing them until the
job is complete.
:param job_name: name of the training job to check status and display logs for
:type job_name: str
:param non_terminal_states: the set of non_terminal states
:type non_terminal_states: set
:param failed_states: the set of failed states
:type failed_states: set
:param wait_for_completion: Whether to keep looking for new log entries
until the job completes
:type wait_for_completion: bool
:param check_interval: The interval in seconds between polling for new log entries and job completion
:type check_interval: int
:param max_ingestion_time: the maximum ingestion time in seconds. Any
SageMaker jobs that run longer than this will fail. Setting this to
None implies no timeout for any SageMaker job.
:type max_ingestion_time: int
:return: None
"""
sec = 0
description = self.describe_training_job(job_name)
self.log.info(secondary_training_status_message(description, None))
instance_count = description['ResourceConfig']['InstanceCount']
status = description['TrainingJobStatus']
stream_names: list = [] # The list of log streams
positions: dict = {} # The current position in each stream, map of stream name -> position
job_already_completed = status not in non_terminal_states
state = LogState.TAILING if wait_for_completion and not job_already_completed else LogState.COMPLETE
# The loop below implements a state machine that alternates between checking the job status and
# reading whatever is available in the logs at this point. Note, that if we were called with
# wait_for_completion == False, we never check the job status.
#
# If wait_for_completion == TRUE and job is not completed, the initial state is TAILING
# If wait_for_completion == FALSE, the initial state is COMPLETE
# (doesn't matter if the job really is complete).
#
# The state table:
#
# STATE ACTIONS CONDITION NEW STATE
# ---------------- ---------------- ----------------- ----------------
# TAILING Read logs, Pause, Get status Job complete JOB_COMPLETE
# Else TAILING
# JOB_COMPLETE Read logs, Pause Any COMPLETE
# COMPLETE Read logs, Exit N/A
#
# Notes:
# - The JOB_COMPLETE state forces us to do an extra pause and read any items that
# got to Cloudwatch after the job was marked complete.
last_describe_job_call = time.monotonic()
last_description = description
while True:
time.sleep(check_interval)
sec += check_interval
state, last_description, last_describe_job_call = self.describe_training_job_with_log(
job_name,
positions,
stream_names,
instance_count,
state,
last_description,
last_describe_job_call,
)
if state == LogState.COMPLETE:
break
if max_ingestion_time and sec > max_ingestion_time:
# ensure that the job gets killed if the max ingestion time is exceeded
raise AirflowException(f'SageMaker job took more than {max_ingestion_time} seconds')
if wait_for_completion:
status = last_description['TrainingJobStatus']
if status in failed_states:
reason = last_description.get('FailureReason', '(No reason provided)')
raise AirflowException(f'Error training {job_name}: {status} Reason: {reason}')
billable_time = (
last_description['TrainingEndTime'] - last_description['TrainingStartTime']
) * instance_count
self.log.info('Billable seconds: %d', int(billable_time.total_seconds()) + 1)
[docs] def list_training_jobs(
self, name_contains: Optional[str] = None, max_results: Optional[int] = None, **kwargs
) -> List[Dict]:
"""
This method wraps boto3's `list_training_jobs`. The training job name and max results are configurable
via arguments. Other arguments are not, and should be provided via kwargs. Note boto3 expects these in
CamelCase format, for example:
.. code-block:: python
list_training_jobs(name_contains="myjob", StatusEquals="Failed")
.. seealso::
https://boto3.amazonaws.com/v1/documentation/api/latest/reference/services/sagemaker.html#SageMaker.Client.list_training_jobs
:param name_contains: (optional) partial name to match
:param max_results: (optional) maximum number of results to return. None returns infinite results
:param kwargs: (optional) kwargs to boto3's list_training_jobs method
:return: results of the list_training_jobs request
"""
config = {}
if name_contains:
if "NameContains" in kwargs:
raise AirflowException("Either name_contains or NameContains can be provided, not both.")
config["NameContains"] = name_contains
if "MaxResults" in kwargs and kwargs["MaxResults"] is not None:
if max_results:
raise AirflowException("Either max_results or MaxResults can be provided, not both.")
# Unset MaxResults, we'll use the SageMakerHook's internal method for iteratively fetching results
max_results = kwargs["MaxResults"]
del kwargs["MaxResults"]
config.update(kwargs)
list_training_jobs_request = partial(self.get_conn().list_training_jobs, **config)
results = self._list_request(
list_training_jobs_request, "TrainingJobSummaries", max_results=max_results
)
return results
[docs] def list_processing_jobs(self, **kwargs) -> List[Dict]:
"""
This method wraps boto3's `list_processing_jobs`. All arguments should be provided via kwargs.
Note boto3 expects these in CamelCase format, for example:
.. code-block:: python
list_processing_jobs(NameContains="myjob", StatusEquals="Failed")
.. seealso::
https://boto3.amazonaws.com/v1/documentation/api/latest/reference/services/sagemaker.html#SageMaker.Client.list_processing_jobs
:param kwargs: (optional) kwargs to boto3's list_training_jobs method
:return: results of the list_processing_jobs request
"""
list_processing_jobs_request = partial(self.get_conn().list_processing_jobs, **kwargs)
results = self._list_request(
list_processing_jobs_request, "ProcessingJobSummaries", max_results=kwargs.get("MaxResults")
)
return results
def _list_request(
self, partial_func: Callable, result_key: str, max_results: Optional[int] = None
) -> List[Dict]:
"""
All AWS boto3 list_* requests return results in batches (if the key "NextToken" is contained in the
result, there are more results to fetch). The default AWS batch size is 10, and configurable up to
100. This function iteratively loads all results (or up to a given maximum).
Each boto3 list_* function returns the results in a list with a different name. The key of this
structure must be given to iterate over the results, e.g. "TransformJobSummaries" for
list_transform_jobs().
:param partial_func: boto3 function with arguments
:param result_key: the result key to iterate over
:param max_results: maximum number of results to return (None = infinite)
:return: Results of the list_* request
"""
sagemaker_max_results = 100 # Fixed number set by AWS
results: List[Dict] = []
next_token = None
while True:
kwargs = {}
if next_token is not None:
kwargs["NextToken"] = next_token
if max_results is None:
kwargs["MaxResults"] = sagemaker_max_results
else:
kwargs["MaxResults"] = min(max_results - len(results), sagemaker_max_results)
response = partial_func(**kwargs)
self.log.debug("Fetched %s results.", len(response[result_key]))
results.extend(response[result_key])
if "NextToken" not in response or (max_results is not None and len(results) == max_results):
# Return when there are no results left (no NextToken) or when we've reached max_results.
return results
else:
next_token = response["NextToken"]
[docs] def find_processing_job_by_name(self, processing_job_name: str) -> bool:
"""Query processing job by name"""
try:
self.get_conn().describe_processing_job(ProcessingJobName=processing_job_name)
return True
except ClientError as e:
if e.response['Error']['Code'] in ['ValidationException', 'ResourceNotFound']:
return False
raise