# Copyright 2013 Amazon.com, Inc. or its affiliates. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"). You # may not use this file except in compliance with the License. A copy of # the License is located at # # http://aws.amazon.com/apache2.0/ # # or in the "license" file accompanying this file. This file 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 logging import os from s3transfer.manager import TransferManager from awscli.customizations.s3.utils import ( human_readable_size, MAX_UPLOAD_SIZE, find_bucket_key, relative_path, create_warning, NonSeekableStream) from awscli.customizations.s3.transferconfig import \ create_transfer_config_from_runtime_config from awscli.customizations.s3.results import UploadResultSubscriber from awscli.customizations.s3.results import DownloadResultSubscriber from awscli.customizations.s3.results import CopyResultSubscriber from awscli.customizations.s3.results import UploadStreamResultSubscriber from awscli.customizations.s3.results import DownloadStreamResultSubscriber from awscli.customizations.s3.results import DeleteResultSubscriber from awscli.customizations.s3.results import QueuedResult from awscli.customizations.s3.results import SuccessResult from awscli.customizations.s3.results import FailureResult from awscli.customizations.s3.results import DryRunResult from awscli.customizations.s3.results import ResultRecorder from awscli.customizations.s3.results import ResultPrinter from awscli.customizations.s3.results import OnlyShowErrorsResultPrinter from awscli.customizations.s3.results import NoProgressResultPrinter from awscli.customizations.s3.results import ResultProcessor from awscli.customizations.s3.results import CommandResultRecorder from awscli.customizations.s3.utils import RequestParamsMapper from awscli.customizations.s3.utils import StdoutBytesWriter from awscli.customizations.s3.utils import ProvideSizeSubscriber from awscli.customizations.s3.utils import ProvideUploadContentTypeSubscriber from awscli.customizations.s3.utils import ProvideCopyContentTypeSubscriber from awscli.customizations.s3.utils import ProvideLastModifiedTimeSubscriber from awscli.customizations.s3.utils import DirectoryCreatorSubscriber from awscli.customizations.s3.utils import DeleteSourceFileSubscriber from awscli.customizations.s3.utils import DeleteSourceObjectSubscriber from awscli.customizations.s3.utils import DeleteCopySourceObjectSubscriber from awscli.compat import get_binary_stdin LOGGER = logging.getLogger(__name__) class S3TransferHandlerFactory(object): MAX_IN_MEMORY_CHUNKS = 6 def __init__(self, cli_params, runtime_config): """Factory for S3TransferHandlers :type cli_params: dict :param cli_params: The parameters provide to the CLI command :type runtime_config: RuntimeConfig :param runtime_config: The runtime config for the CLI command being run """ self._cli_params = cli_params self._runtime_config = runtime_config def __call__(self, client, result_queue): """Creates a S3TransferHandler instance :type client: botocore.client.Client :param client: The client to power the S3TransferHandler :type result_queue: queue.Queue :param result_queue: The result queue to be used to process results for the S3TransferHandler :returns: A S3TransferHandler instance """ transfer_config = create_transfer_config_from_runtime_config( self._runtime_config) transfer_config.max_in_memory_upload_chunks = self.MAX_IN_MEMORY_CHUNKS transfer_config.max_in_memory_download_chunks = \ self.MAX_IN_MEMORY_CHUNKS transfer_manager = TransferManager(client, transfer_config) LOGGER.debug( "Using a multipart threshold of %s and a part size of %s", transfer_config.multipart_threshold, transfer_config.multipart_chunksize ) result_recorder = ResultRecorder() result_processor_handlers = [result_recorder] self._add_result_printer(result_recorder, result_processor_handlers) result_processor = ResultProcessor( result_queue, result_processor_handlers) command_result_recorder = CommandResultRecorder( result_queue, result_recorder, result_processor) return S3TransferHandler( transfer_manager, self._cli_params, command_result_recorder) def _add_result_printer(self, result_recorder, result_processor_handlers): if self._cli_params.get('quiet'): return elif self._cli_params.get('only_show_errors'): result_printer = OnlyShowErrorsResultPrinter(result_recorder) elif self._cli_params.get('is_stream'): result_printer = OnlyShowErrorsResultPrinter(result_recorder) elif not self._cli_params.get('progress'): result_printer = NoProgressResultPrinter(result_recorder) else: result_printer = ResultPrinter(result_recorder) result_processor_handlers.append(result_printer) class S3TransferHandler(object): def __init__(self, transfer_manager, cli_params, result_command_recorder): """Backend for performing S3 transfers :type transfer_manager: s3transfer.manager.TransferManager :param transfer_manager: Transfer manager to use for transfers :type cli_params: dict :param cli_params: The parameters passed to the CLI command in the form of a dictionary :type result_command_recorder: ResultCommandRecorder :param result_command_recorder: The result command recorder to be used to get the final result of the transfer """ self._transfer_manager = transfer_manager # TODO: Ideally the s3 transfer handler should not need to know # about the result command recorder. It really only needs an interface # for adding results to the queue. When all of the commands have # converted to use this transfer handler, an effort should be made # to replace the passing of a result command recorder with an # abstraction to enqueue results. self._result_command_recorder = result_command_recorder submitter_args = ( self._transfer_manager, self._result_command_recorder.result_queue, cli_params ) self._submitters = [ UploadStreamRequestSubmitter(*submitter_args), DownloadStreamRequestSubmitter(*submitter_args), UploadRequestSubmitter(*submitter_args), DownloadRequestSubmitter(*submitter_args), CopyRequestSubmitter(*submitter_args), DeleteRequestSubmitter(*submitter_args), LocalDeleteRequestSubmitter(*submitter_args) ] def call(self, fileinfos): """Process iterable of FileInfos for transfer :type fileinfos: iterable of FileInfos param fileinfos: Set of FileInfos to submit to underlying transfer request submitters to make transfer API calls to S3 :rtype: CommandResult :returns: The result of the command that specifies the number of failures and warnings encountered. """ with self._result_command_recorder: with self._transfer_manager: total_submissions = 0 for fileinfo in fileinfos: for submitter in self._submitters: if submitter.can_submit(fileinfo): if submitter.submit(fileinfo): total_submissions += 1 break self._result_command_recorder.notify_total_submissions( total_submissions) return self._result_command_recorder.get_command_result() class BaseTransferRequestSubmitter(object): REQUEST_MAPPER_METHOD = None RESULT_SUBSCRIBER_CLASS = None def __init__(self, transfer_manager, result_queue, cli_params): """Submits transfer requests to the TransferManager Given a FileInfo object and provided CLI parameters, it will add the necessary extra arguments and subscribers in making a call to the TransferManager. :type transfer_manager: s3transfer.manager.TransferManager :param transfer_manager: The underlying transfer manager :type result_queue: queue.Queue :param result_queue: The result queue to use :type cli_params: dict :param cli_params: The associated CLI parameters passed in to the command as a dictionary. """ self._transfer_manager = transfer_manager self._result_queue = result_queue self._cli_params = cli_params def submit(self, fileinfo): """Submits a transfer request based on the FileInfo provided There is no guarantee that the transfer request will be made on behalf of the fileinfo as a fileinfo may be skipped based on circumstances in which the transfer is not possible. :type fileinfo: awscli.customizations.s3.fileinfo.FileInfo :param fileinfo: The FileInfo to be used to submit a transfer request to the underlying transfer manager. :rtype: s3transfer.futures.TransferFuture :returns: A TransferFuture representing the transfer if it the transfer was submitted. If it was not submitted nothing is returned. """ should_skip = self._warn_and_signal_if_skip(fileinfo) if not should_skip: return self._do_submit(fileinfo) def can_submit(self, fileinfo): """Checks whether it can submit a particular FileInfo :type fileinfo: awscli.customizations.s3.fileinfo.FileInfo :param fileinfo: The FileInfo to check if the transfer request submitter can handle. :returns: True if it can use the provided FileInfo to make a transfer request to the underlying transfer manager. False, otherwise. """ raise NotImplementedError('can_submit()') def _do_submit(self, fileinfo): extra_args = {} if self.REQUEST_MAPPER_METHOD: self.REQUEST_MAPPER_METHOD(extra_args, self._cli_params) subscribers = [] self._add_additional_subscribers(subscribers, fileinfo) # The result subscriber class should always be the last registered # subscriber to ensure it is not missing any information that # may have been added in a different subscriber such as size. if self.RESULT_SUBSCRIBER_CLASS: result_kwargs = {'result_queue': self._result_queue} if self._cli_params.get('is_move', False): result_kwargs['transfer_type'] = 'move' subscribers.append(self.RESULT_SUBSCRIBER_CLASS(**result_kwargs)) if not self._cli_params.get('dryrun'): return self._submit_transfer_request( fileinfo, extra_args, subscribers) else: self._submit_dryrun(fileinfo) def _submit_dryrun(self, fileinfo): transfer_type = fileinfo.operation_name if self._cli_params.get('is_move', False): transfer_type = 'move' src, dest = self._format_src_dest(fileinfo) self._result_queue.put(DryRunResult( transfer_type=transfer_type, src=src, dest=dest)) def _add_additional_subscribers(self, subscribers, fileinfo): pass def _submit_transfer_request(self, fileinfo, extra_args, subscribers): raise NotImplementedError('_submit_transfer_request()') def _warn_and_signal_if_skip(self, fileinfo): for warning_handler in self._get_warning_handlers(): if warning_handler(fileinfo): # On the first warning handler that returns a signal to skip # immediately propagate this signal and no longer check # the other warning handlers as no matter what the file will # be skipped. return True def _get_warning_handlers(self): # Returns a list of warning handlers, which are callables that # take in a single parameter representing a FileInfo. It will then # add a warning to result_queue if needed and return True if # that FileInfo should be skipped. return [] def _should_inject_content_type(self): return ( self._cli_params.get('guess_mime_type') and not self._cli_params.get('content_type') ) def _warn_glacier(self, fileinfo): if not self._cli_params.get('force_glacier_transfer'): if not fileinfo.is_glacier_compatible(): LOGGER.debug( 'Encountered glacier object s3://%s. Not performing ' '%s on object.' % (fileinfo.src, fileinfo.operation_name)) if not self._cli_params.get('ignore_glacier_warnings'): warning = create_warning( 's3://'+fileinfo.src, 'Object is of storage class GLACIER. Unable to ' 'perform %s operations on GLACIER objects. You must ' 'restore the object to be able to perform the ' 'operation. See aws s3 %s help for additional ' 'parameter options to ignore or force these ' 'transfers.' % (fileinfo.operation_name, fileinfo.operation_name) ) self._result_queue.put(warning) return True return False def _warn_parent_reference(self, fileinfo): # normpath() will use the OS path separator so we # need to take that into account when checking for a parent prefix. parent_prefix = '..' + os.path.sep escapes_cwd = os.path.normpath(fileinfo.compare_key).startswith( parent_prefix) if escapes_cwd: warning = create_warning( fileinfo.compare_key, "File references a parent directory.") self._result_queue.put(warning) return True return False def _format_src_dest(self, fileinfo): """Returns formatted versions of a fileinfos source and destination.""" raise NotImplementedError('_format_src_dest') def _format_local_path(self, path): return relative_path(path) def _format_s3_path(self, path): if path.startswith('s3://'): return path return 's3://' + path class UploadRequestSubmitter(BaseTransferRequestSubmitter): REQUEST_MAPPER_METHOD = RequestParamsMapper.map_put_object_params RESULT_SUBSCRIBER_CLASS = UploadResultSubscriber def can_submit(self, fileinfo): return fileinfo.operation_name == 'upload' def _add_additional_subscribers(self, subscribers, fileinfo): subscribers.append(ProvideSizeSubscriber(fileinfo.size)) if self._should_inject_content_type(): subscribers.append(ProvideUploadContentTypeSubscriber()) if self._cli_params.get('is_move', False): subscribers.append(DeleteSourceFileSubscriber()) def _submit_transfer_request(self, fileinfo, extra_args, subscribers): bucket, key = find_bucket_key(fileinfo.dest) filein = self._get_filein(fileinfo) return self._transfer_manager.upload( fileobj=filein, bucket=bucket, key=key, extra_args=extra_args, subscribers=subscribers ) def _get_filein(self, fileinfo): return fileinfo.src def _get_warning_handlers(self): return [self._warn_if_too_large] def _warn_if_too_large(self, fileinfo): if getattr(fileinfo, 'size') and fileinfo.size > MAX_UPLOAD_SIZE: file_path = relative_path(fileinfo.src) warning_message = ( "File %s exceeds s3 upload limit of %s." % ( file_path, human_readable_size(MAX_UPLOAD_SIZE))) warning = create_warning( file_path, warning_message, skip_file=False) self._result_queue.put(warning) def _format_src_dest(self, fileinfo): src = self._format_local_path(fileinfo.src) dest = self._format_s3_path(fileinfo.dest) return src, dest class DownloadRequestSubmitter(BaseTransferRequestSubmitter): REQUEST_MAPPER_METHOD = RequestParamsMapper.map_get_object_params RESULT_SUBSCRIBER_CLASS = DownloadResultSubscriber def can_submit(self, fileinfo): return fileinfo.operation_name == 'download' def _add_additional_subscribers(self, subscribers, fileinfo): subscribers.append(ProvideSizeSubscriber(fileinfo.size)) subscribers.append(DirectoryCreatorSubscriber()) subscribers.append(ProvideLastModifiedTimeSubscriber( fileinfo.last_update, self._result_queue)) if self._cli_params.get('is_move', False): subscribers.append(DeleteSourceObjectSubscriber( fileinfo.source_client)) def _submit_transfer_request(self, fileinfo, extra_args, subscribers): bucket, key = find_bucket_key(fileinfo.src) fileout = self._get_fileout(fileinfo) return self._transfer_manager.download( fileobj=fileout, bucket=bucket, key=key, extra_args=extra_args, subscribers=subscribers ) def _get_fileout(self, fileinfo): return fileinfo.dest def _get_warning_handlers(self): return [self._warn_glacier, self._warn_parent_reference] def _format_src_dest(self, fileinfo): src = self._format_s3_path(fileinfo.src) dest = self._format_local_path(fileinfo.dest) return src, dest class CopyRequestSubmitter(BaseTransferRequestSubmitter): REQUEST_MAPPER_METHOD = RequestParamsMapper.map_copy_object_params RESULT_SUBSCRIBER_CLASS = CopyResultSubscriber def can_submit(self, fileinfo): return fileinfo.operation_name == 'copy' def _add_additional_subscribers(self, subscribers, fileinfo): subscribers.append(ProvideSizeSubscriber(fileinfo.size)) if self._should_inject_content_type(): subscribers.append(ProvideCopyContentTypeSubscriber()) if self._cli_params.get('is_move', False): subscribers.append(DeleteCopySourceObjectSubscriber( fileinfo.source_client)) def _submit_transfer_request(self, fileinfo, extra_args, subscribers): bucket, key = find_bucket_key(fileinfo.dest) source_bucket, source_key = find_bucket_key(fileinfo.src) copy_source = {'Bucket': source_bucket, 'Key': source_key} return self._transfer_manager.copy( bucket=bucket, key=key, copy_source=copy_source, extra_args=extra_args, subscribers=subscribers, source_client=fileinfo.source_client ) def _get_warning_handlers(self): return [self._warn_glacier] def _format_src_dest(self, fileinfo): src = self._format_s3_path(fileinfo.src) dest = self._format_s3_path(fileinfo.dest) return src, dest class UploadStreamRequestSubmitter(UploadRequestSubmitter): RESULT_SUBSCRIBER_CLASS = UploadStreamResultSubscriber def can_submit(self, fileinfo): return ( fileinfo.operation_name == 'upload' and self._cli_params.get('is_stream') ) def _add_additional_subscribers(self, subscribers, fileinfo): expected_size = self._cli_params.get('expected_size', None) if expected_size is not None: subscribers.append(ProvideSizeSubscriber(int(expected_size))) def _get_filein(self, fileinfo): binary_stdin = get_binary_stdin() return NonSeekableStream(binary_stdin) def _format_local_path(self, path): return '-' class DownloadStreamRequestSubmitter(DownloadRequestSubmitter): RESULT_SUBSCRIBER_CLASS = DownloadStreamResultSubscriber def can_submit(self, fileinfo): return ( fileinfo.operation_name == 'download' and self._cli_params.get('is_stream') ) def _add_additional_subscribers(self, subscribers, fileinfo): pass def _get_fileout(self, fileinfo): return StdoutBytesWriter() def _format_local_path(self, path): return '-' class DeleteRequestSubmitter(BaseTransferRequestSubmitter): REQUEST_MAPPER_METHOD = RequestParamsMapper.map_delete_object_params RESULT_SUBSCRIBER_CLASS = DeleteResultSubscriber def can_submit(self, fileinfo): return fileinfo.operation_name == 'delete' and \ fileinfo.src_type == 's3' def _submit_transfer_request(self, fileinfo, extra_args, subscribers): bucket, key = find_bucket_key(fileinfo.src) return self._transfer_manager.delete( bucket=bucket, key=key, extra_args=extra_args, subscribers=subscribers) def _format_src_dest(self, fileinfo): return self._format_s3_path(fileinfo.src), None class LocalDeleteRequestSubmitter(BaseTransferRequestSubmitter): REQUEST_MAPPER_METHOD = None RESULT_SUBSCRIBER_CLASS = None def can_submit(self, fileinfo): return fileinfo.operation_name == 'delete' and \ fileinfo.src_type == 'local' def _submit_transfer_request(self, fileinfo, extra_args, subscribers): # This is quirky but essentially instead of relying on a built-in # method of s3 transfer, the logic lives directly in the submitter. # The reason a explicit delete local file does not # live in s3transfer is because it is outside the scope of s3transfer; # it should only have interfaces for interacting with S3. Therefore, # the burden of this functionality should live in the CLI. # The main downsides in doing this is that delete and the result # creation happens in the main thread as opposed to a separate thread # in s3transfer. However, this is not too big of a downside because # deleting a local file only happens for sync --delete downloads and # is very fast compared to all of the other types of transfers. src, dest = self._format_src_dest(fileinfo) result_kwargs = { 'transfer_type': 'delete', 'src': src, 'dest': dest } try: self._result_queue.put(QueuedResult( total_transfer_size=0, **result_kwargs)) os.remove(fileinfo.src) self._result_queue.put(SuccessResult(**result_kwargs)) except Exception as e: self._result_queue.put( FailureResult(exception=e, **result_kwargs)) finally: # Return True to indicate that the transfer was submitted return True def _format_src_dest(self, fileinfo): return self._format_local_path(fileinfo.src), None