def setUp(self):
super(BaseSubmissionTaskTest, self).setUp()
self.config = TransferConfig()
self.osutil = OSUtils()
self.executor = BoundedExecutor(
1000, 1, {
IN_MEMORY_UPLOAD_TAG: TaskSemaphore(10),
IN_MEMORY_DOWNLOAD_TAG: SlidingWindowSemaphore(10)
})
def __init__(self, client, config=None, osutil=None, executor_cls=None):
"""A transfer manager interface for Amazon S3
:param client: Client to be used by the manager
:param config: TransferConfig to associate specific configurations
:param osutil: OSUtils object to use for os-related behavior when
using with transfer manager.
:type executor_cls: s3transfer.futures.BaseExecutor
:param executor_cls: The class of executor to use with the transfer
manager. By default, concurrent.futures.ThreadPoolExecutor is used.
"""
self._client = client
self._config = config
if config is None:
self._config = TransferConfig()
self._osutil = osutil
if osutil is None:
self._osutil = OSUtils()
self._coordinator_controller = TransferCoordinatorController()
# A counter to create unique id's for each transfer submitted.
self._id_counter = 0
# The executor responsible for making S3 API transfer requests
self._request_executor = BoundedExecutor(
max_size=self._config.max_request_queue_size,
max_num_threads=self._config.max_request_concurrency,
tag_semaphores={
IN_MEMORY_UPLOAD_TAG: TaskSemaphore(
self._config.max_in_memory_upload_chunks),
IN_MEMORY_DOWNLOAD_TAG: SlidingWindowSemaphore(
self._config.max_in_memory_download_chunks)
},
executor_cls=executor_cls
)
# The executor responsible for submitting the necessary tasks to
# perform the desired transfer
self._submission_executor = BoundedExecutor(
max_size=self._config.max_submission_queue_size,
max_num_threads=self._config.max_submission_concurrency,
executor_cls=executor_cls
)
# There is one thread available for writing to disk. It will handle
# downloads for all files.
self._io_executor = BoundedExecutor(
max_size=self._config.max_io_queue_size,
max_num_threads=1,
executor_cls=executor_cls
)
self._register_handlers()
def setUp(self):
super(TestGetObjectTask, self).setUp()
self.bucket = 'mybucket'
self.key = 'mykey'
self.extra_args = {}
self.callbacks = []
self.max_attempts = 5
self.io_executor = BoundedExecutor(1000, 1)
self.content = b'my content'
self.stream = six.BytesIO(self.content)
self.fileobj = WriteCollector()
self.osutil = OSUtils()
self.io_chunksize = 64 * (1024**2)
self.download_output_manager = DownloadSeekableOutputManager(
self.osutil, self.transfer_coordinator, self.io_executor)
def setUp(self):
super(TestDownloadSubmissionTask, self).setUp()
self.tempdir = tempfile.mkdtemp()
self.filename = os.path.join(self.tempdir, 'myfile')
self.bucket = 'mybucket'
self.key = 'mykey'
self.extra_args = {}
self.subscribers = []
# Create a stream to read from
self.content = b'my content'
self.stream = six.BytesIO(self.content)
# A list to keep track of all of the bodies sent over the wire
# and their order.
self.call_args = self.get_call_args()
self.transfer_future = self.get_transfer_future(self.call_args)
self.io_executor = BoundedExecutor(1000, 1)
self.submission_main_kwargs = {
'client': self.client,
'config': self.config,
'osutil': self.osutil,
'request_executor': self.executor,
'io_executor': self.io_executor,
'transfer_future': self.transfer_future
}
self.submission_task = self.get_download_submission_task()
class BaseSubmissionTaskTest(BaseTaskTest):
def setUp(self):
super(BaseSubmissionTaskTest, self).setUp()
self.config = TransferConfig()
self.osutil = OSUtils()
self.executor = BoundedExecutor(
1000,
1,
{
IN_MEMORY_UPLOAD_TAG: TaskSemaphore(10),
IN_MEMORY_DOWNLOAD_TAG: SlidingWindowSemaphore(10)
}
)
def tearDown(self):
super(BaseSubmissionTaskTest, self).tearDown()
self.executor.shutdown()
def test_submit_writes_from_internal_queue(self):
class FakeQueue(object):
def request_writes(self, offset, data):
return [
{'offset': 0, 'data': 'foo'},
{'offset': 3, 'data': 'bar'},
]
q = FakeQueue()
io_executor = BoundedExecutor(1000, 1)
manager = DownloadNonSeekableOutputManager(
self.osutil, self.transfer_coordinator, io_executor=io_executor,
defer_queue=q)
fileobj = WriteCollector()
manager.queue_file_io_task(
fileobj=fileobj, data='foo', offset=1)
io_executor.shutdown()
self.assertEqual(fileobj.writes, [(0, 'foo'), (3, 'bar')])
def test_submit_writes_from_internal_queue(self):
class FakeQueue(object):
def request_writes(self, offset, data):
return [
{'offset': 0, 'data': 'foo'},
{'offset': 3, 'data': 'bar'},
]
q = FakeQueue()
io_executor = BoundedExecutor(1000, 1)
manager = DownloadNonSeekableOutputManager(
self.osutil, self.transfer_coordinator, io_executor=io_executor,
defer_queue=q)
fileobj = WriteCollector()
manager.queue_file_io_task(
fileobj=fileobj, data='foo', offset=1)
io_executor.shutdown()
self.assertEqual(fileobj.writes, [(0, 'foo'), (3, 'bar')])
def test_association_and_disassociation_on_submit(self):
self.transfer_coordinator = RecordingTransferCoordinator()
# Submit a callable to the transfer coordinator.
executor = BoundedExecutor(1, 1)
task = ReturnFooTask(self.transfer_coordinator)
future = self.transfer_coordinator.submit(executor, task)
executor.shutdown()
# Make sure the future that got submitted was associated to the
# transfer future at some point.
self.assertEqual(
self.transfer_coordinator.all_transfer_futures_ever_associated,
set([future]))
# Make sure the future got disassociated once the future is now done
# by looking at the currently associated futures.
self.assertEqual(self.transfer_coordinator.associated_futures, set([]))
def test_association_and_disassociation_on_submit(self):
self.transfer_coordinator = RecordingTransferCoordinator()
# Submit a callable to the transfer coordinator.
executor = BoundedExecutor(1, 1)
task = ReturnFooTask(self.transfer_coordinator)
future = self.transfer_coordinator.submit(executor, task)
executor.shutdown()
# Make sure the future that got submitted was associated to the
# transfer future at some point.
self.assertEqual(
self.transfer_coordinator.all_transfer_futures_ever_associated,
set([future])
)
# Make sure the future got disassociated once the future is now done
# by looking at the currently associated futures.
self.assertEqual(
self.transfer_coordinator.associated_futures, set([]))
def setUp(self):
super(BaseDownloadOutputManagerTest, self).setUp()
self.osutil = OSUtils()
# Create a file to write to
self.tempdir = tempfile.mkdtemp()
self.filename = os.path.join(self.tempdir, 'myfile')
self.call_args = CallArgs(fileobj=self.filename)
self.future = self.get_transfer_future(self.call_args)
self.io_executor = BoundedExecutor(1000, 1)
def __init__(self, client, config=None, osutil=None, executor_cls=None):
"""A transfer manager interface for Amazon S3
:param client: Client to be used by the manager
:param config: TransferConfig to associate specific configurations
:param osutil: OSUtils object to use for os-related behavior when
using with transfer manager.
:type executor_cls: s3transfer.futures.BaseExecutor
:param executor_cls: The class of executor to use with the transfer
manager. By default, concurrent.futures.ThreadPoolExecutor is used.
"""
self._client = client
self._config = config
if config is None:
self._config = TransferConfig()
self._osutil = osutil
if osutil is None:
self._osutil = OSUtils()
self._coordinator_controller = TransferCoordinatorController()
# A counter to create unique id's for each transfer submitted.
self._id_counter = 0
# The executor responsible for making S3 API transfer requests
self._request_executor = BoundedExecutor(
max_size=self._config.max_request_queue_size,
max_num_threads=self._config.max_request_concurrency,
tag_semaphores={
IN_MEMORY_UPLOAD_TAG:
TaskSemaphore(self._config.max_in_memory_upload_chunks),
IN_MEMORY_DOWNLOAD_TAG:
SlidingWindowSemaphore(
self._config.max_in_memory_download_chunks)
},
executor_cls=executor_cls)
# The executor responsible for submitting the necessary tasks to
# perform the desired transfer
self._submission_executor = BoundedExecutor(
max_size=self._config.max_submission_queue_size,
max_num_threads=self._config.max_submission_concurrency,
executor_cls=executor_cls)
# There is one thread available for writing to disk. It will handle
# downloads for all files.
self._io_executor = BoundedExecutor(
max_size=self._config.max_io_queue_size,
max_num_threads=1,
executor_cls=executor_cls)
# The component responsible for limiting bandwidth usage if it
# is configured.
self._bandwidth_limiter = None
if self._config.max_bandwidth is not None:
logger.debug('Setting max_bandwidth to %s',
self._config.max_bandwidth)
leaky_bucket = LeakyBucket(self._config.max_bandwidth)
self._bandwidth_limiter = BandwidthLimiter(leaky_bucket)
self._register_handlers()
def test_submit(self):
# Submit a callable to the transfer coordinator. It should submit it
# to the executor.
executor = RecordingExecutor(
BoundedExecutor(1, 1, {'my-tag': TaskSemaphore(1)}))
task = ReturnFooTask(self.transfer_coordinator)
future = self.transfer_coordinator.submit(executor, task, tag='my-tag')
executor.shutdown()
# Make sure the future got submit and executed as well by checking its
# result value which should include the provided future tag.
self.assertEqual(executor.submissions, [{
'block': True,
'tag': 'my-tag',
'task': task
}])
self.assertEqual(future.result(), 'foo')
def setUp(self):
super(TestGetObjectTask, self).setUp()
self.bucket = 'mybucket'
self.key = 'mykey'
self.extra_args = {}
self.callbacks = []
self.max_attempts = 5
self.io_executor = BoundedExecutor(1000, 1)
self.content = b'my content'
self.stream = six.BytesIO(self.content)
self.fileobj = WriteCollector()
self.osutil = OSUtils()
self.io_chunksize = 64 * (1024 ** 2)
self.task_cls = GetObjectTask
self.download_output_manager = DownloadSeekableOutputManager(
self.osutil, self.transfer_coordinator, self.io_executor)
def __init__(self, client, config=None, osutil=None):
"""A transfer manager interface for Amazon S3
:param client: Client to be used by the manager
:param config: TransferConfig to associate specific configurations
:param osutil: OSUtils object to use for os-related behavior when
using with transfer manager.
"""
self._client = client
self._config = config
if config is None:
self._config = TransferConfig()
self._osutil = osutil
if osutil is None:
self._osutil = OSUtils()
self._coordinator_controller = TransferCoordinatorController()
# A counter to create unique id's for each transfer submitted.
self._id_counter = 0
# The executor responsible for making S3 API transfer requests
self._request_executor = BoundedExecutor(
max_size=self._config.max_request_queue_size,
max_num_threads=self._config.max_request_concurrency,
tag_semaphores={
IN_MEMORY_UPLOAD_TAG: TaskSemaphore(
self._config.max_in_memory_upload_chunks),
IN_MEMORY_DOWNLOAD_TAG: SlidingWindowSemaphore(
self._config.max_in_memory_download_chunks)
}
)
# The executor responsible for submitting the necessary tasks to
# perform the desired transfer
self._submission_executor = BoundedExecutor(
max_size=self._config.max_submission_queue_size,
max_num_threads=self._config.max_submission_concurrency
)
# There is one thread available for writing to disk. It will handle
# downloads for all files.
self._io_executor = BoundedExecutor(
max_size=self._config.max_io_queue_size,
max_num_threads=1
)
self._register_handlers()
def get_executor(self, max_size=1, max_num_threads=1):
return BoundedExecutor(max_size, max_num_threads, self.tag_semaphores)
class TransferManager(object):
ALLOWED_DOWNLOAD_ARGS = [
'VersionId',
'SSECustomerAlgorithm',
'SSECustomerKey',
'SSECustomerKeyMD5',
'RequestPayer',
]
ALLOWED_UPLOAD_ARGS = [
'ACL', 'CacheControl', 'ContentDisposition', 'ContentEncoding',
'ContentLanguage', 'ContentType', 'Expires', 'GrantFullControl',
'GrantRead', 'GrantReadACP', 'GrantWriteACP', 'Metadata',
'RequestPayer', 'ServerSideEncryption', 'StorageClass',
'SSECustomerAlgorithm', 'SSECustomerKey', 'SSECustomerKeyMD5',
'SSEKMSKeyId', 'WebsiteRedirectLocation'
]
ALLOWED_COPY_ARGS = ALLOWED_UPLOAD_ARGS + [
'CopySourceIfMatch', 'CopySourceIfModifiedSince',
'CopySourceIfNoneMatch', 'CopySourceIfUnmodifiedSince',
'CopySourceSSECustomerAlgorithm', 'CopySourceSSECustomerKey',
'CopySourceSSECustomerKeyMD5', 'MetadataDirective'
]
ALLOWED_DELETE_ARGS = [
'MFA',
'VersionId',
'RequestPayer',
]
def __init__(self, client, config=None, osutil=None):
"""A transfer manager interface for Amazon S3
:param client: Client to be used by the manager
:param config: TransferConfig to associate specific configurations
:param osutil: OSUtils object to use for os-related behavior when
using with transfer manager.
"""
self._client = client
self._config = config
if config is None:
self._config = TransferConfig()
self._osutil = osutil
if osutil is None:
self._osutil = OSUtils()
self._coordinator_controller = TransferCoordinatorController()
# A counter to create unique id's for each transfer submitted.
self._id_counter = 0
# The executor responsible for making S3 API transfer requests
self._request_executor = BoundedExecutor(
max_size=self._config.max_request_queue_size,
max_num_threads=self._config.max_request_concurrency,
tag_semaphores={
IN_MEMORY_UPLOAD_TAG:
TaskSemaphore(self._config.max_in_memory_upload_chunks),
IN_MEMORY_DOWNLOAD_TAG:
SlidingWindowSemaphore(
self._config.max_in_memory_download_chunks)
})
# The executor responsible for submitting the necessary tasks to
# perform the desired transfer
self._submission_executor = BoundedExecutor(
max_size=self._config.max_submission_queue_size,
max_num_threads=self._config.max_submission_concurrency)
# There is one thread available for writing to disk. It will handle
# downloads for all files.
self._io_executor = BoundedExecutor(
max_size=self._config.max_io_queue_size, max_num_threads=1)
self._register_handlers()
def upload(self, fileobj, bucket, key, extra_args=None, subscribers=None):
"""Uploads a file to S3
:type fileobj: str or seekable file-like object
:param fileobj: The name of a file to upload or a seekable file-like
object to upload. It is recommended to use a filename because
file-like objects may result in higher memory usage.
:type bucket: str
:param bucket: The name of the bucket to upload to
:type key: str
:param key: The name of the key to upload to
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
client operation
:type subscribers: list(s3transfer.subscribers.BaseSubscriber)
:param subscribers: The list of subscribers to be invoked in the
order provided based on the event emit during the process of
the transfer request.
:rtype: s3transfer.futures.TransferFuture
:returns: Transfer future representing the upload
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
self._validate_all_known_args(extra_args, self.ALLOWED_UPLOAD_ARGS)
call_args = CallArgs(fileobj=fileobj,
bucket=bucket,
key=key,
extra_args=extra_args,
subscribers=subscribers)
return self._submit_transfer(call_args, UploadSubmissionTask)
def download(self,
bucket,
key,
fileobj,
extra_args=None,
subscribers=None):
"""Downloads a file from S3
:type bucket: str
:param bucket: The name of the bucket to download from
:type key: str
:param key: The name of the key to download from
:type fileobj: str
:param fileobj: The name of a file to download to.
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
client operation
:type subscribers: list(s3transfer.subscribers.BaseSubscriber)
:param subscribers: The list of subscribers to be invoked in the
order provided based on the event emit during the process of
the transfer request.
:rtype: s3transfer.futures.TransferFuture
:returns: Transfer future representing the download
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
self._validate_all_known_args(extra_args, self.ALLOWED_DOWNLOAD_ARGS)
call_args = CallArgs(bucket=bucket,
key=key,
fileobj=fileobj,
extra_args=extra_args,
subscribers=subscribers)
return self._submit_transfer(call_args, DownloadSubmissionTask,
{'io_executor': self._io_executor})
def copy(self,
copy_source,
bucket,
key,
extra_args=None,
subscribers=None,
source_client=None):
"""Copies a file in S3
:type copy_source: dict
:param copy_source: The name of the source bucket, key name of the
source object, and optional version ID of the source object. The
dictionary format is:
``{'Bucket': 'bucket', 'Key': 'key', 'VersionId': 'id'}``. Note
that the ``VersionId`` key is optional and may be omitted.
:type bucket: str
:param bucket: The name of the bucket to copy to
:type key: str
:param key: The name of the key to copy to
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
client operation
:type subscribers: a list of subscribers
:param subscribers: The list of subscribers to be invoked in the
order provided based on the event emit during the process of
the transfer request.
:type source_client: botocore or boto3 Client
:param source_client: The client to be used for operation that
may happen at the source object. For example, this client is
used for the head_object that determines the size of the copy.
If no client is provided, the transfer manager's client is used
as the client for the source object.
:rtype: s3transfer.futures.TransferFuture
:returns: Transfer future representing the copy
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
if source_client is None:
source_client = self._client
self._validate_all_known_args(extra_args, self.ALLOWED_COPY_ARGS)
call_args = CallArgs(copy_source=copy_source,
bucket=bucket,
key=key,
extra_args=extra_args,
subscribers=subscribers,
source_client=source_client)
return self._submit_transfer(call_args, CopySubmissionTask)
def delete(self, bucket, key, extra_args=None, subscribers=None):
"""Delete an S3 object.
:type bucket: str
:param bucket: The name of the bucket.
:type key: str
:param key: The name of the S3 object to delete.
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
DeleteObject call.
:type subscribers: list
:param subscribers: A list of subscribers to be invoked during the
process of the transfer request. Note that the ``on_progress``
callback is not invoked during object deletion.
:rtype: s3transfer.futures.TransferFuture
:return: Transfer future representing the deletion.
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
self._validate_all_known_args(extra_args, self.ALLOWED_DELETE_ARGS)
call_args = CallArgs(bucket=bucket,
key=key,
extra_args=extra_args,
subscribers=subscribers)
return self._submit_transfer(call_args, DeleteSubmissionTask)
def _validate_all_known_args(self, actual, allowed):
for kwarg in actual:
if kwarg not in allowed:
raise ValueError("Invalid extra_args key '%s', "
"must be one of: %s" %
(kwarg, ', '.join(allowed)))
def _submit_transfer(self,
call_args,
submission_task_cls,
extra_main_kwargs=None):
if not extra_main_kwargs:
extra_main_kwargs = {}
# Create a TransferFuture to return back to the user
transfer_future, components = self._get_future_with_components(
call_args)
# Add any provided done callbacks to the created transfer future
# to be invoked on the transfer future being complete.
for callback in get_callbacks(transfer_future, 'done'):
components['coordinator'].add_done_callback(callback)
# Get the main kwargs needed to instantiate the submission task
main_kwargs = self._get_submission_task_main_kwargs(
transfer_future, extra_main_kwargs)
# Submit a SubmissionTask that will submit all of the necessary
# tasks needed to complete the S3 transfer.
self._submission_executor.submit(
submission_task_cls(transfer_coordinator=components['coordinator'],
main_kwargs=main_kwargs))
# Increment the unique id counter for future transfer requests
self._id_counter += 1
return transfer_future
def _get_future_with_components(self, call_args):
transfer_id = self._id_counter
# Creates a new transfer future along with its components
transfer_coordinator = TransferCoordinator(transfer_id=transfer_id)
# Track the transfer coordinator for transfers to manage.
self._coordinator_controller.add_transfer_coordinator(
transfer_coordinator)
# Also make sure that the transfer coordinator is removed once
# the transfer completes so it does not stick around in memory.
transfer_coordinator.add_done_callback(
self._coordinator_controller.remove_transfer_coordinator,
transfer_coordinator)
components = {
'meta': TransferMeta(call_args, transfer_id=transfer_id),
'coordinator': transfer_coordinator
}
transfer_future = TransferFuture(**components)
return transfer_future, components
def _get_submission_task_main_kwargs(self, transfer_future,
extra_main_kwargs):
main_kwargs = {
'client': self._client,
'config': self._config,
'osutil': self._osutil,
'request_executor': self._request_executor,
'transfer_future': transfer_future
}
main_kwargs.update(extra_main_kwargs)
return main_kwargs
def _register_handlers(self):
# Register handlers to enable/disable callbacks on uploads.
event_name = 'request-created.s3'
enable_id = unique_id('s3upload-callback-enable')
disable_id = unique_id('s3upload-callback-disable')
self._client.meta.events.register_first(event_name,
disable_upload_callbacks,
unique_id=disable_id)
self._client.meta.events.register_last(event_name,
enable_upload_callbacks,
unique_id=enable_id)
def __enter__(self):
return self
def __exit__(self, exc_type, *args):
cancel = False
# If a exception was raised in the context handler, signal to cancel
# all of the inprogress futures in the shutdown.
if exc_type:
cancel = True
self.shutdown(cancel)
def shutdown(self, cancel=False):
"""Shutdown the TransferManager
It will wait till all transfers complete before it completely shuts
down.
:type cancel: boolean
:param cancel: If True, calls TransferFuture.cancel() for
all in-progress in transfers. This is useful if you want the
shutdown to happen quicker.
"""
if cancel:
# Cancel all in-flight transfers if requested, before waiting
# for them to complete.
self._coordinator_controller.cancel()
try:
# Wait until there are no more in-progress transfers. This is
# wrapped in a try statement because this can be interrupted
# with a KeyboardInterrupt that needs to be caught.
self._coordinator_controller.wait()
finally:
# If not errors were raised in the try block, the cancel should
# have no coordinators it needs to run cancel on. If there was
# an error raised in the try statement we want to cancel all of
# the inflight transfers before shutting down to speed that
# process up.
self._coordinator_controller.cancel()
# Shutdown all of the executors.
self._submission_executor.shutdown()
self._request_executor.shutdown()
self._io_executor.shutdown()
def setUp(self):
super(TestSubmissionTask, self).setUp()
self.executor = BoundedExecutor(1000, 5)
self.call_args = CallArgs(subscribers=[])
self.transfer_future = self.get_transfer_future(self.call_args)
self.main_kwargs = {'transfer_future': self.transfer_future}
class TestGetObjectTask(BaseTaskTest):
def setUp(self):
super(TestGetObjectTask, self).setUp()
self.bucket = 'mybucket'
self.key = 'mykey'
self.extra_args = {}
self.callbacks = []
self.max_attempts = 5
self.io_executor = BoundedExecutor(1000, 1)
self.content = b'my content'
self.stream = six.BytesIO(self.content)
self.fileobj = WriteCollector()
self.osutil = OSUtils()
self.io_chunksize = 64 * (1024**2)
self.download_output_manager = DownloadSeekableOutputManager(
self.osutil, self.transfer_coordinator, self.io_executor)
def get_download_task(self, **kwargs):
default_kwargs = {
'client': self.client,
'bucket': self.bucket,
'key': self.key,
'fileobj': self.fileobj,
'extra_args': self.extra_args,
'callbacks': self.callbacks,
'max_attempts': self.max_attempts,
'download_output_manager': self.download_output_manager,
'io_chunksize': self.io_chunksize,
}
default_kwargs.update(kwargs)
return self.get_task(GetObjectTask, main_kwargs=default_kwargs)
def assert_io_writes(self, expected_writes):
# Let the io executor process all of the writes before checking
# what writes were sent to it.
self.io_executor.shutdown()
self.assertEqual(self.fileobj.writes, expected_writes)
def test_main(self):
self.stubber.add_response('get_object',
service_response={'Body': self.stream},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
task = self.get_download_task()
task()
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(0, self.content)])
def test_extra_args(self):
self.stubber.add_response('get_object',
service_response={'Body': self.stream},
expected_params={
'Bucket': self.bucket,
'Key': self.key,
'Range': 'bytes=0-'
})
self.extra_args['Range'] = 'bytes=0-'
task = self.get_download_task()
task()
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(0, self.content)])
def test_control_chunk_size(self):
self.stubber.add_response('get_object',
service_response={'Body': self.stream},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
task = self.get_download_task(io_chunksize=1)
task()
self.stubber.assert_no_pending_responses()
expected_contents = []
for i in range(len(self.content)):
expected_contents.append((i, bytes(self.content[i:i + 1])))
self.assert_io_writes(expected_contents)
def test_start_index(self):
self.stubber.add_response('get_object',
service_response={'Body': self.stream},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
task = self.get_download_task(start_index=5)
task()
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(5, self.content)])
def test_retries_succeeds(self):
self.stubber.add_response('get_object',
service_response={
'Body':
StreamWithError(self.stream,
SOCKET_ERROR)
},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
self.stubber.add_response('get_object',
service_response={'Body': self.stream},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
task = self.get_download_task()
task()
# Retryable error should have not affected the bytes placed into
# the io queue.
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(0, self.content)])
def test_retries_failure(self):
for _ in range(self.max_attempts):
self.stubber.add_response('get_object',
service_response={
'Body':
StreamWithError(
self.stream, SOCKET_ERROR)
},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
task = self.get_download_task()
task()
self.transfer_coordinator.announce_done()
# Should have failed out on a RetriesExceededError
with self.assertRaises(RetriesExceededError):
self.transfer_coordinator.result()
self.stubber.assert_no_pending_responses()
def test_retries_in_middle_of_streaming(self):
# After the first read a retryable error will be thrown
self.stubber.add_response('get_object',
service_response={
'Body':
StreamWithError(
copy.deepcopy(self.stream),
SOCKET_ERROR, 1)
},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
self.stubber.add_response('get_object',
service_response={'Body': self.stream},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
task = self.get_download_task(io_chunksize=1)
task()
self.stubber.assert_no_pending_responses()
expected_contents = []
# This is the content intially read in before the retry hit on the
# second read()
expected_contents.append((0, bytes(self.content[0:1])))
# The rest of the content should be the entire set of data partitioned
# out based on the one byte stream chunk size. Note the second
# element in the list should be a copy of the first element since
# a retryable exception happened in between.
for i in range(len(self.content)):
expected_contents.append((i, bytes(self.content[i:i + 1])))
self.assert_io_writes(expected_contents)
def test_cancels_out_of_queueing(self):
self.stubber.add_response('get_object',
service_response={
'Body':
CancelledStreamWrapper(
self.stream,
self.transfer_coordinator)
},
expected_params={
'Bucket': self.bucket,
'Key': self.key
})
task = self.get_download_task()
task()
self.stubber.assert_no_pending_responses()
# Make sure that no contents were added to the queue because the task
# should have been canceled before trying to add the contents to the
# io queue.
self.assert_io_writes([])
class TestGetObjectTask(BaseTaskTest):
def setUp(self):
super(TestGetObjectTask, self).setUp()
self.bucket = 'mybucket'
self.key = 'mykey'
self.extra_args = {}
self.callbacks = []
self.max_attempts = 5
self.io_executor = BoundedExecutor(1000, 1)
self.content = b'my content'
self.stream = six.BytesIO(self.content)
self.fileobj = WriteCollector()
self.osutil = OSUtils()
self.io_chunksize = 64 * (1024 ** 2)
self.task_cls = GetObjectTask
self.download_output_manager = DownloadSeekableOutputManager(
self.osutil, self.transfer_coordinator, self.io_executor)
def get_download_task(self, **kwargs):
default_kwargs = {
'client': self.client, 'bucket': self.bucket, 'key': self.key,
'fileobj': self.fileobj, 'extra_args': self.extra_args,
'callbacks': self.callbacks,
'max_attempts': self.max_attempts,
'download_output_manager': self.download_output_manager,
'io_chunksize': self.io_chunksize,
}
default_kwargs.update(kwargs)
self.transfer_coordinator.set_status_to_queued()
return self.get_task(self.task_cls, main_kwargs=default_kwargs)
def assert_io_writes(self, expected_writes):
# Let the io executor process all of the writes before checking
# what writes were sent to it.
self.io_executor.shutdown()
self.assertEqual(self.fileobj.writes, expected_writes)
def test_main(self):
self.stubber.add_response(
'get_object', service_response={'Body': self.stream},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
task = self.get_download_task()
task()
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(0, self.content)])
def test_extra_args(self):
self.stubber.add_response(
'get_object', service_response={'Body': self.stream},
expected_params={
'Bucket': self.bucket, 'Key': self.key, 'Range': 'bytes=0-'
}
)
self.extra_args['Range'] = 'bytes=0-'
task = self.get_download_task()
task()
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(0, self.content)])
def test_control_chunk_size(self):
self.stubber.add_response(
'get_object', service_response={'Body': self.stream},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
task = self.get_download_task(io_chunksize=1)
task()
self.stubber.assert_no_pending_responses()
expected_contents = []
for i in range(len(self.content)):
expected_contents.append((i, bytes(self.content[i:i+1])))
self.assert_io_writes(expected_contents)
def test_start_index(self):
self.stubber.add_response(
'get_object', service_response={'Body': self.stream},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
task = self.get_download_task(start_index=5)
task()
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(5, self.content)])
def test_retries_succeeds(self):
self.stubber.add_response(
'get_object', service_response={
'Body': StreamWithError(self.stream, SOCKET_ERROR)
},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
self.stubber.add_response(
'get_object', service_response={'Body': self.stream},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
task = self.get_download_task()
task()
# Retryable error should have not affected the bytes placed into
# the io queue.
self.stubber.assert_no_pending_responses()
self.assert_io_writes([(0, self.content)])
def test_retries_failure(self):
for _ in range(self.max_attempts):
self.stubber.add_response(
'get_object', service_response={
'Body': StreamWithError(self.stream, SOCKET_ERROR)
},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
task = self.get_download_task()
task()
self.transfer_coordinator.announce_done()
# Should have failed out on a RetriesExceededError
with self.assertRaises(RetriesExceededError):
self.transfer_coordinator.result()
self.stubber.assert_no_pending_responses()
def test_retries_in_middle_of_streaming(self):
# After the first read a retryable error will be thrown
self.stubber.add_response(
'get_object', service_response={
'Body': StreamWithError(
copy.deepcopy(self.stream), SOCKET_ERROR, 1)
},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
self.stubber.add_response(
'get_object', service_response={'Body': self.stream},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
task = self.get_download_task(io_chunksize=1)
task()
self.stubber.assert_no_pending_responses()
expected_contents = []
# This is the content intially read in before the retry hit on the
# second read()
expected_contents.append((0, bytes(self.content[0:1])))
# The rest of the content should be the entire set of data partitioned
# out based on the one byte stream chunk size. Note the second
# element in the list should be a copy of the first element since
# a retryable exception happened in between.
for i in range(len(self.content)):
expected_contents.append((i, bytes(self.content[i:i+1])))
self.assert_io_writes(expected_contents)
def test_cancels_out_of_queueing(self):
self.stubber.add_response(
'get_object',
service_response={
'Body': CancelledStreamWrapper(
self.stream, self.transfer_coordinator)
},
expected_params={'Bucket': self.bucket, 'Key': self.key}
)
task = self.get_download_task()
task()
self.stubber.assert_no_pending_responses()
# Make sure that no contents were added to the queue because the task
# should have been canceled before trying to add the contents to the
# io queue.
self.assert_io_writes([])
class TransferManager(object):
ALLOWED_DOWNLOAD_ARGS = [
'VersionId',
'SSECustomerAlgorithm',
'SSECustomerKey',
'SSECustomerKeyMD5',
'RequestPayer',
]
ALLOWED_UPLOAD_ARGS = [
'ACL',
'CacheControl',
'ContentDisposition',
'ContentEncoding',
'ContentLanguage',
'ContentType',
'Expires',
'GrantFullControl',
'GrantRead',
'GrantReadACP',
'GrantWriteACP',
'Metadata',
'RequestPayer',
'ServerSideEncryption',
'StorageClass',
'SSECustomerAlgorithm',
'SSECustomerKey',
'SSECustomerKeyMD5',
'SSEKMSKeyId',
'WebsiteRedirectLocation'
]
ALLOWED_COPY_ARGS = ALLOWED_UPLOAD_ARGS + [
'CopySourceIfMatch',
'CopySourceIfModifiedSince',
'CopySourceIfNoneMatch',
'CopySourceIfUnmodifiedSince',
'CopySourceSSECustomerAlgorithm',
'CopySourceSSECustomerKey',
'CopySourceSSECustomerKeyMD5',
'MetadataDirective'
]
ALLOWED_DELETE_ARGS = [
'MFA',
'VersionId',
'RequestPayer',
]
def __init__(self, client, config=None, osutil=None, executor_cls=None):
"""A transfer manager interface for Amazon S3
:param client: Client to be used by the manager
:param config: TransferConfig to associate specific configurations
:param osutil: OSUtils object to use for os-related behavior when
using with transfer manager.
:type executor_cls: s3transfer.futures.BaseExecutor
:param executor_cls: The class of executor to use with the transfer
manager. By default, concurrent.futures.ThreadPoolExecutor is used.
"""
self._client = client
self._config = config
if config is None:
self._config = TransferConfig()
self._osutil = osutil
if osutil is None:
self._osutil = OSUtils()
self._coordinator_controller = TransferCoordinatorController()
# A counter to create unique id's for each transfer submitted.
self._id_counter = 0
# The executor responsible for making S3 API transfer requests
self._request_executor = BoundedExecutor(
max_size=self._config.max_request_queue_size,
max_num_threads=self._config.max_request_concurrency,
tag_semaphores={
IN_MEMORY_UPLOAD_TAG: TaskSemaphore(
self._config.max_in_memory_upload_chunks),
IN_MEMORY_DOWNLOAD_TAG: SlidingWindowSemaphore(
self._config.max_in_memory_download_chunks)
},
executor_cls=executor_cls
)
# The executor responsible for submitting the necessary tasks to
# perform the desired transfer
self._submission_executor = BoundedExecutor(
max_size=self._config.max_submission_queue_size,
max_num_threads=self._config.max_submission_concurrency,
executor_cls=executor_cls
)
# There is one thread available for writing to disk. It will handle
# downloads for all files.
self._io_executor = BoundedExecutor(
max_size=self._config.max_io_queue_size,
max_num_threads=1,
executor_cls=executor_cls
)
# The component responsible for limiting bandwidth usage if it
# is configured.
self._bandwidth_limiter = None
if self._config.max_bandwidth is not None:
logger.debug(
'Setting max_bandwidth to %s', self._config.max_bandwidth)
leaky_bucket = LeakyBucket(self._config.max_bandwidth)
self._bandwidth_limiter = BandwidthLimiter(leaky_bucket)
self._register_handlers()
def upload(self, fileobj, bucket, key, extra_args=None, subscribers=None):
"""Uploads a file to S3
:type fileobj: str or seekable file-like object
:param fileobj: The name of a file to upload or a seekable file-like
object to upload. It is recommended to use a filename because
file-like objects may result in higher memory usage.
:type bucket: str
:param bucket: The name of the bucket to upload to
:type key: str
:param key: The name of the key to upload to
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
client operation
:type subscribers: list(s3transfer.subscribers.BaseSubscriber)
:param subscribers: The list of subscribers to be invoked in the
order provided based on the event emit during the process of
the transfer request.
:rtype: s3transfer.futures.TransferFuture
:returns: Transfer future representing the upload
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
self._validate_all_known_args(extra_args, self.ALLOWED_UPLOAD_ARGS)
call_args = CallArgs(
fileobj=fileobj, bucket=bucket, key=key, extra_args=extra_args,
subscribers=subscribers
)
extra_main_kwargs = {}
if self._bandwidth_limiter:
extra_main_kwargs['bandwidth_limiter'] = self._bandwidth_limiter
return self._submit_transfer(
call_args, UploadSubmissionTask, extra_main_kwargs)
def download(self, bucket, key, fileobj, extra_args=None,
subscribers=None):
"""Downloads a file from S3
:type bucket: str
:param bucket: The name of the bucket to download from
:type key: str
:param key: The name of the key to download from
:type fileobj: str
:param fileobj: The name of a file to download to.
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
client operation
:type subscribers: list(s3transfer.subscribers.BaseSubscriber)
:param subscribers: The list of subscribers to be invoked in the
order provided based on the event emit during the process of
the transfer request.
:rtype: s3transfer.futures.TransferFuture
:returns: Transfer future representing the download
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
self._validate_all_known_args(extra_args, self.ALLOWED_DOWNLOAD_ARGS)
call_args = CallArgs(
bucket=bucket, key=key, fileobj=fileobj, extra_args=extra_args,
subscribers=subscribers
)
extra_main_kwargs = {'io_executor': self._io_executor}
if self._bandwidth_limiter:
extra_main_kwargs['bandwidth_limiter'] = self._bandwidth_limiter
return self._submit_transfer(
call_args, DownloadSubmissionTask, extra_main_kwargs)
def copy(self, copy_source, bucket, key, extra_args=None,
subscribers=None, source_client=None):
"""Copies a file in S3
:type copy_source: dict
:param copy_source: The name of the source bucket, key name of the
source object, and optional version ID of the source object. The
dictionary format is:
``{'Bucket': 'bucket', 'Key': 'key', 'VersionId': 'id'}``. Note
that the ``VersionId`` key is optional and may be omitted.
:type bucket: str
:param bucket: The name of the bucket to copy to
:type key: str
:param key: The name of the key to copy to
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
client operation
:type subscribers: a list of subscribers
:param subscribers: The list of subscribers to be invoked in the
order provided based on the event emit during the process of
the transfer request.
:type source_client: botocore or boto3 Client
:param source_client: The client to be used for operation that
may happen at the source object. For example, this client is
used for the head_object that determines the size of the copy.
If no client is provided, the transfer manager's client is used
as the client for the source object.
:rtype: s3transfer.futures.TransferFuture
:returns: Transfer future representing the copy
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
if source_client is None:
source_client = self._client
self._validate_all_known_args(extra_args, self.ALLOWED_COPY_ARGS)
call_args = CallArgs(
copy_source=copy_source, bucket=bucket, key=key,
extra_args=extra_args, subscribers=subscribers,
source_client=source_client
)
return self._submit_transfer(call_args, CopySubmissionTask)
def delete(self, bucket, key, extra_args=None, subscribers=None):
"""Delete an S3 object.
:type bucket: str
:param bucket: The name of the bucket.
:type key: str
:param key: The name of the S3 object to delete.
:type extra_args: dict
:param extra_args: Extra arguments that may be passed to the
DeleteObject call.
:type subscribers: list
:param subscribers: A list of subscribers to be invoked during the
process of the transfer request. Note that the ``on_progress``
callback is not invoked during object deletion.
:rtype: s3transfer.futures.TransferFuture
:return: Transfer future representing the deletion.
"""
if extra_args is None:
extra_args = {}
if subscribers is None:
subscribers = []
self._validate_all_known_args(extra_args, self.ALLOWED_DELETE_ARGS)
call_args = CallArgs(
bucket=bucket, key=key, extra_args=extra_args,
subscribers=subscribers
)
return self._submit_transfer(call_args, DeleteSubmissionTask)
def _validate_all_known_args(self, actual, allowed):
for kwarg in actual:
if kwarg not in allowed:
raise ValueError(
"Invalid extra_args key '%s', "
"must be one of: %s" % (
kwarg, ', '.join(allowed)))
def _submit_transfer(self, call_args, submission_task_cls,
extra_main_kwargs=None):
if not extra_main_kwargs:
extra_main_kwargs = {}
# Create a TransferFuture to return back to the user
transfer_future, components = self._get_future_with_components(
call_args)
# Add any provided done callbacks to the created transfer future
# to be invoked on the transfer future being complete.
for callback in get_callbacks(transfer_future, 'done'):
components['coordinator'].add_done_callback(callback)
# Get the main kwargs needed to instantiate the submission task
main_kwargs = self._get_submission_task_main_kwargs(
transfer_future, extra_main_kwargs)
# Submit a SubmissionTask that will submit all of the necessary
# tasks needed to complete the S3 transfer.
self._submission_executor.submit(
submission_task_cls(
transfer_coordinator=components['coordinator'],
main_kwargs=main_kwargs
)
)
# Increment the unique id counter for future transfer requests
self._id_counter += 1
return transfer_future
def _get_future_with_components(self, call_args):
transfer_id = self._id_counter
# Creates a new transfer future along with its components
transfer_coordinator = TransferCoordinator(transfer_id=transfer_id)
# Track the transfer coordinator for transfers to manage.
self._coordinator_controller.add_transfer_coordinator(
transfer_coordinator)
# Also make sure that the transfer coordinator is removed once
# the transfer completes so it does not stick around in memory.
transfer_coordinator.add_done_callback(
self._coordinator_controller.remove_transfer_coordinator,
transfer_coordinator)
components = {
'meta': TransferMeta(call_args, transfer_id=transfer_id),
'coordinator': transfer_coordinator
}
transfer_future = TransferFuture(**components)
return transfer_future, components
def _get_submission_task_main_kwargs(
self, transfer_future, extra_main_kwargs):
main_kwargs = {
'client': self._client,
'config': self._config,
'osutil': self._osutil,
'request_executor': self._request_executor,
'transfer_future': transfer_future
}
main_kwargs.update(extra_main_kwargs)
return main_kwargs
def _register_handlers(self):
# Register handlers to enable/disable callbacks on uploads.
event_name = 'request-created.s3'
self._client.meta.events.register_first(
event_name, signal_not_transferring,
unique_id='s3upload-not-transferring')
self._client.meta.events.register_last(
event_name, signal_transferring,
unique_id='s3upload-transferring')
def __enter__(self):
return self
def __exit__(self, exc_type, exc_value, *args):
cancel = False
cancel_msg = ''
cancel_exc_type = FatalError
# If a exception was raised in the context handler, signal to cancel
# all of the inprogress futures in the shutdown.
if exc_type:
cancel = True
cancel_msg = six.text_type(exc_value)
if not cancel_msg:
cancel_msg = repr(exc_value)
# If it was a KeyboardInterrupt, the cancellation was initiated
# by the user.
if isinstance(exc_value, KeyboardInterrupt):
cancel_exc_type = CancelledError
self._shutdown(cancel, cancel_msg, cancel_exc_type)
def shutdown(self, cancel=False, cancel_msg=''):
"""Shutdown the TransferManager
It will wait till all transfers complete before it completely shuts
down.
:type cancel: boolean
:param cancel: If True, calls TransferFuture.cancel() for
all in-progress in transfers. This is useful if you want the
shutdown to happen quicker.
:type cancel_msg: str
:param cancel_msg: The message to specify if canceling all in-progress
transfers.
"""
self._shutdown(cancel, cancel, cancel_msg)
def _shutdown(self, cancel, cancel_msg, exc_type=CancelledError):
if cancel:
# Cancel all in-flight transfers if requested, before waiting
# for them to complete.
self._coordinator_controller.cancel(cancel_msg, exc_type)
try:
# Wait until there are no more in-progress transfers. This is
# wrapped in a try statement because this can be interrupted
# with a KeyboardInterrupt that needs to be caught.
self._coordinator_controller.wait()
except KeyboardInterrupt:
# If not errors were raised in the try block, the cancel should
# have no coordinators it needs to run cancel on. If there was
# an error raised in the try statement we want to cancel all of
# the inflight transfers before shutting down to speed that
# process up.
self._coordinator_controller.cancel('KeyboardInterrupt()')
raise
finally:
# Shutdown all of the executors.
self._submission_executor.shutdown()
self._request_executor.shutdown()
self._io_executor.shutdown()
def test_replace_underlying_executor(self):
mocked_executor_cls = mock.Mock(BaseExecutor)
executor = BoundedExecutor(10, 1, {}, mocked_executor_cls)
executor.submit(self.get_task(ReturnFooTask))
self.assertTrue(mocked_executor_cls.return_value.submit.called)