675 lines
26 KiB
Python
675 lines
26 KiB
Python
# Copyright 2012-2014 Amazon.com, Inc. or its affiliates. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License"). You
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# may not use this file except in compliance with the License. A copy of
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# the License is located at
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#
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# http://aws.amazon.com/apache2.0/
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#
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# or in the "license" file accompanying this file. This file is
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# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF
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# ANY KIND, either express or implied. See the License for the specific
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# language governing permissions and limitations under the License.
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from itertools import tee
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from botocore.compat import six
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import jmespath
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import json
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import base64
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import logging
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from botocore.exceptions import PaginationError
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from botocore.compat import zip
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from botocore.utils import set_value_from_jmespath, merge_dicts
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log = logging.getLogger(__name__)
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class TokenEncoder(object):
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"""Encodes dictionaries into opaque strings.
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This for the most part json dumps + base64 encoding, but also supports
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having bytes in the dictionary in addition to the types that json can
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handle by default.
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This is intended for use in encoding pagination tokens, which in some
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cases can be complex structures and / or contain bytes.
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"""
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def encode(self, token):
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"""Encodes a dictionary to an opaque string.
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:type token: dict
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:param token: A dictionary containing pagination information,
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particularly the service pagination token(s) but also other boto
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metadata.
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:rtype: str
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:returns: An opaque string
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"""
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try:
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# Try just using json dumps first to avoid having to traverse
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# and encode the dict. In 99.9999% of cases this will work.
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json_string = json.dumps(token)
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except (TypeError, UnicodeDecodeError):
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# If normal dumping failed, go through and base64 encode all bytes.
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encoded_token, encoded_keys = self._encode(token, [])
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# Save the list of all the encoded key paths. We can safely
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# assume that no service will ever use this key.
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encoded_token['boto_encoded_keys'] = encoded_keys
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# Now that the bytes are all encoded, dump the json.
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json_string = json.dumps(encoded_token)
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# base64 encode the json string to produce an opaque token string.
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return base64.b64encode(json_string.encode('utf-8')).decode('utf-8')
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def _encode(self, data, path):
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"""Encode bytes in given data, keeping track of the path traversed."""
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if isinstance(data, dict):
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return self._encode_dict(data, path)
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elif isinstance(data, list):
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return self._encode_list(data, path)
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elif isinstance(data, six.binary_type):
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return self._encode_bytes(data, path)
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else:
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return data, []
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def _encode_list(self, data, path):
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"""Encode any bytes in a list, noting the index of what is encoded."""
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new_data = []
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encoded = []
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for i, value in enumerate(data):
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new_path = path + [i]
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new_value, new_encoded = self._encode(value, new_path)
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new_data.append(new_value)
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encoded.extend(new_encoded)
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return new_data, encoded
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def _encode_dict(self, data, path):
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"""Encode any bytes in a dict, noting the index of what is encoded."""
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new_data = {}
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encoded = []
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for key, value in data.items():
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new_path = path + [key]
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new_value, new_encoded = self._encode(value, new_path)
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new_data[key] = new_value
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encoded.extend(new_encoded)
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return new_data, encoded
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def _encode_bytes(self, data, path):
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"""Base64 encode a byte string."""
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return base64.b64encode(data).decode('utf-8'), [path]
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class TokenDecoder(object):
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"""Decodes token strings back into dictionaries.
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This performs the inverse operation to the TokenEncoder, accepting
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opaque strings and decoding them into a useable form.
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"""
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def decode(self, token):
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"""Decodes an opaque string to a dictionary.
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:type token: str
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:param token: A token string given by the botocore pagination
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interface.
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:rtype: dict
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:returns: A dictionary containing pagination information,
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particularly the service pagination token(s) but also other boto
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metadata.
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"""
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json_string = base64.b64decode(token.encode('utf-8')).decode('utf-8')
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decoded_token = json.loads(json_string)
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# Remove the encoding metadata as it is read since it will no longer
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# be needed.
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encoded_keys = decoded_token.pop('boto_encoded_keys', None)
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if encoded_keys is None:
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return decoded_token
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else:
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return self._decode(decoded_token, encoded_keys)
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def _decode(self, token, encoded_keys):
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"""Find each encoded value and decode it."""
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for key in encoded_keys:
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encoded = self._path_get(token, key)
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decoded = base64.b64decode(encoded.encode('utf-8'))
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self._path_set(token, key, decoded)
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return token
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def _path_get(self, data, path):
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"""Return the nested data at the given path.
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For instance:
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data = {'foo': ['bar', 'baz']}
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path = ['foo', 0]
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==> 'bar'
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"""
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# jmespath isn't used here because it would be difficult to actually
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# create the jmespath query when taking all of the unknowns of key
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# structure into account. Gross though this is, it is simple and not
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# very error prone.
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d = data
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for step in path:
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d = d[step]
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return d
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def _path_set(self, data, path, value):
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"""Set the value of a key in the given data.
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Example:
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data = {'foo': ['bar', 'baz']}
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path = ['foo', 1]
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value = 'bin'
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==> data = {'foo': ['bar', 'bin']}
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"""
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container = self._path_get(data, path[:-1])
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container[path[-1]] = value
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class PaginatorModel(object):
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def __init__(self, paginator_config):
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self._paginator_config = paginator_config['pagination']
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def get_paginator(self, operation_name):
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try:
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single_paginator_config = self._paginator_config[operation_name]
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except KeyError:
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raise ValueError("Paginator for operation does not exist: %s"
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% operation_name)
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return single_paginator_config
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class PageIterator(object):
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def __init__(self, method, input_token, output_token, more_results,
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result_keys, non_aggregate_keys, limit_key, max_items,
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starting_token, page_size, op_kwargs):
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self._method = method
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self._input_token = input_token
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self._output_token = output_token
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self._more_results = more_results
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self._result_keys = result_keys
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self._max_items = max_items
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self._limit_key = limit_key
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self._starting_token = starting_token
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self._page_size = page_size
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self._op_kwargs = op_kwargs
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self._resume_token = None
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self._non_aggregate_key_exprs = non_aggregate_keys
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self._non_aggregate_part = {}
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self._token_encoder = TokenEncoder()
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self._token_decoder = TokenDecoder()
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@property
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def result_keys(self):
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return self._result_keys
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@property
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def resume_token(self):
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"""Token to specify to resume pagination."""
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return self._resume_token
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@resume_token.setter
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def resume_token(self, value):
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if not isinstance(value, dict):
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raise ValueError("Bad starting token: %s" % value)
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if 'boto_truncate_amount' in value:
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token_keys = sorted(self._input_token + ['boto_truncate_amount'])
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else:
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token_keys = sorted(self._input_token)
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dict_keys = sorted(value.keys())
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if token_keys == dict_keys:
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self._resume_token = self._token_encoder.encode(value)
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else:
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raise ValueError("Bad starting token: %s" % value)
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@property
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def non_aggregate_part(self):
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return self._non_aggregate_part
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def __iter__(self):
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current_kwargs = self._op_kwargs
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previous_next_token = None
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next_token = dict((key, None) for key in self._input_token)
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if self._starting_token is not None:
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# If the starting token exists, populate the next_token with the
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# values inside it. This ensures that we have the service's
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# pagination token on hand if we need to truncate after the
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# first response.
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next_token = self._parse_starting_token()[0]
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# The number of items from result_key we've seen so far.
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total_items = 0
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first_request = True
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primary_result_key = self.result_keys[0]
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starting_truncation = 0
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self._inject_starting_params(current_kwargs)
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while True:
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response = self._make_request(current_kwargs)
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parsed = self._extract_parsed_response(response)
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if first_request:
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# The first request is handled differently. We could
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# possibly have a resume/starting token that tells us where
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# to index into the retrieved page.
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if self._starting_token is not None:
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starting_truncation = self._handle_first_request(
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parsed, primary_result_key, starting_truncation)
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first_request = False
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self._record_non_aggregate_key_values(parsed)
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else:
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# If this isn't the first request, we have already sliced into
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# the first request and had to make additional requests after.
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# We no longer need to add this to truncation.
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starting_truncation = 0
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current_response = primary_result_key.search(parsed)
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if current_response is None:
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current_response = []
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num_current_response = len(current_response)
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truncate_amount = 0
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if self._max_items is not None:
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truncate_amount = (total_items + num_current_response) \
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- self._max_items
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if truncate_amount > 0:
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self._truncate_response(parsed, primary_result_key,
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truncate_amount, starting_truncation,
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next_token)
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yield response
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break
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else:
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yield response
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total_items += num_current_response
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next_token = self._get_next_token(parsed)
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if all(t is None for t in next_token.values()):
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break
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if self._max_items is not None and \
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total_items == self._max_items:
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# We're on a page boundary so we can set the current
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# next token to be the resume token.
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self.resume_token = next_token
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break
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if previous_next_token is not None and \
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previous_next_token == next_token:
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message = ("The same next token was received "
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"twice: %s" % next_token)
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raise PaginationError(message=message)
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self._inject_token_into_kwargs(current_kwargs, next_token)
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previous_next_token = next_token
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def search(self, expression):
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"""Applies a JMESPath expression to a paginator
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Each page of results is searched using the provided JMESPath
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expression. If the result is not a list, it is yielded
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directly. If the result is a list, each element in the result
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is yielded individually (essentially implementing a flatmap in
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which the JMESPath search is the mapping function).
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:type expression: str
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:param expression: JMESPath expression to apply to each page.
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:return: Returns an iterator that yields the individual
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elements of applying a JMESPath expression to each page of
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results.
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"""
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compiled = jmespath.compile(expression)
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for page in self:
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results = compiled.search(page)
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if isinstance(results, list):
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for element in results:
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yield element
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else:
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# Yield result directly if it is not a list.
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yield results
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def _make_request(self, current_kwargs):
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return self._method(**current_kwargs)
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def _extract_parsed_response(self, response):
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return response
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def _record_non_aggregate_key_values(self, response):
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non_aggregate_keys = {}
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for expression in self._non_aggregate_key_exprs:
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result = expression.search(response)
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set_value_from_jmespath(non_aggregate_keys,
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expression.expression,
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result)
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self._non_aggregate_part = non_aggregate_keys
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def _inject_starting_params(self, op_kwargs):
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# If the user has specified a starting token we need to
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# inject that into the operation's kwargs.
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if self._starting_token is not None:
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# Don't need to do anything special if there is no starting
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# token specified.
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next_token = self._parse_starting_token()[0]
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self._inject_token_into_kwargs(op_kwargs, next_token)
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if self._page_size is not None:
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# Pass the page size as the parameter name for limiting
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# page size, also known as the limit_key.
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op_kwargs[self._limit_key] = self._page_size
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def _inject_token_into_kwargs(self, op_kwargs, next_token):
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for name, token in next_token.items():
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if (token is not None) and (token != 'None'):
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op_kwargs[name] = token
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elif name in op_kwargs:
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del op_kwargs[name]
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def _handle_first_request(self, parsed, primary_result_key,
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starting_truncation):
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# If the payload is an array or string, we need to slice into it
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# and only return the truncated amount.
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starting_truncation = self._parse_starting_token()[1]
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all_data = primary_result_key.search(parsed)
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if isinstance(all_data, (list, six.string_types)):
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data = all_data[starting_truncation:]
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else:
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data = None
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set_value_from_jmespath(
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parsed,
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primary_result_key.expression,
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data
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)
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# We also need to truncate any secondary result keys
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# because they were not truncated in the previous last
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# response.
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for token in self.result_keys:
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if token == primary_result_key:
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continue
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sample = token.search(parsed)
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if isinstance(sample, list):
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empty_value = []
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elif isinstance(sample, six.string_types):
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empty_value = ''
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elif isinstance(sample, (int, float)):
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empty_value = 0
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else:
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empty_value = None
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set_value_from_jmespath(parsed, token.expression, empty_value)
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return starting_truncation
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def _truncate_response(self, parsed, primary_result_key, truncate_amount,
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starting_truncation, next_token):
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original = primary_result_key.search(parsed)
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if original is None:
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original = []
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amount_to_keep = len(original) - truncate_amount
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truncated = original[:amount_to_keep]
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set_value_from_jmespath(
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parsed,
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primary_result_key.expression,
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truncated
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)
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# The issue here is that even though we know how much we've truncated
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# we need to account for this globally including any starting
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# left truncation. For example:
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# Raw response: [0,1,2,3]
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# Starting index: 1
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# Max items: 1
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# Starting left truncation: [1, 2, 3]
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# End right truncation for max items: [1]
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# However, even though we only kept 1, this is post
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# left truncation so the next starting index should be 2, not 1
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# (left_truncation + amount_to_keep).
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next_token['boto_truncate_amount'] = \
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amount_to_keep + starting_truncation
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self.resume_token = next_token
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def _get_next_token(self, parsed):
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if self._more_results is not None:
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if not self._more_results.search(parsed):
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return {}
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next_tokens = {}
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for output_token, input_key in \
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zip(self._output_token, self._input_token):
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next_token = output_token.search(parsed)
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# We do not want to include any empty strings as actual tokens.
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# Treat them as None.
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if next_token:
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next_tokens[input_key] = next_token
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else:
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next_tokens[input_key] = None
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return next_tokens
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def result_key_iters(self):
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teed_results = tee(self, len(self.result_keys))
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return [ResultKeyIterator(i, result_key) for i, result_key
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in zip(teed_results, self.result_keys)]
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def build_full_result(self):
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complete_result = {}
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for response in self:
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page = response
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# We want to try to catch operation object pagination
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# and format correctly for those. They come in the form
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# of a tuple of two elements: (http_response, parsed_responsed).
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# We want the parsed_response as that is what the page iterator
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# uses. We can remove it though once operation objects are removed.
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if isinstance(response, tuple) and len(response) == 2:
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page = response[1]
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# We're incrementally building the full response page
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# by page. For each page in the response we need to
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# inject the necessary components from the page
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# into the complete_result.
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for result_expression in self.result_keys:
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# In order to incrementally update a result key
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# we need to search the existing value from complete_result,
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# then we need to search the _current_ page for the
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# current result key value. Then we append the current
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# value onto the existing value, and re-set that value
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# as the new value.
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result_value = result_expression.search(page)
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if result_value is None:
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continue
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existing_value = result_expression.search(complete_result)
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if existing_value is None:
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# Set the initial result
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set_value_from_jmespath(
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complete_result, result_expression.expression,
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result_value)
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continue
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# Now both result_value and existing_value contain something
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if isinstance(result_value, list):
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existing_value.extend(result_value)
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elif isinstance(result_value, (int, float, six.string_types)):
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# Modify the existing result with the sum or concatenation
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set_value_from_jmespath(
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complete_result, result_expression.expression,
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existing_value + result_value)
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merge_dicts(complete_result, self.non_aggregate_part)
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if self.resume_token is not None:
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complete_result['NextToken'] = self.resume_token
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return complete_result
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def _parse_starting_token(self):
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if self._starting_token is None:
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return None
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# The starting token is a dict passed as a base64 encoded string.
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next_token = self._starting_token
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try:
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next_token = self._token_decoder.decode(next_token)
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index = 0
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if 'boto_truncate_amount' in next_token:
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index = next_token.get('boto_truncate_amount')
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del next_token['boto_truncate_amount']
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except (ValueError, TypeError):
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next_token, index = self._parse_starting_token_deprecated()
|
|
return next_token, index
|
|
|
|
def _parse_starting_token_deprecated(self):
|
|
"""
|
|
This handles parsing of old style starting tokens, and attempts to
|
|
coerce them into the new style.
|
|
"""
|
|
log.debug("Attempting to fall back to old starting token parser. For "
|
|
"token: %s" % self._starting_token)
|
|
if self._starting_token is None:
|
|
return None
|
|
|
|
parts = self._starting_token.split('___')
|
|
next_token = []
|
|
index = 0
|
|
if len(parts) == len(self._input_token) + 1:
|
|
try:
|
|
index = int(parts.pop())
|
|
except ValueError:
|
|
raise ValueError("Bad starting token: %s" %
|
|
self._starting_token)
|
|
for part in parts:
|
|
if part == 'None':
|
|
next_token.append(None)
|
|
else:
|
|
next_token.append(part)
|
|
return self._convert_deprecated_starting_token(next_token), index
|
|
|
|
def _convert_deprecated_starting_token(self, deprecated_token):
|
|
"""
|
|
This attempts to convert a deprecated starting token into the new
|
|
style.
|
|
"""
|
|
len_deprecated_token = len(deprecated_token)
|
|
len_input_token = len(self._input_token)
|
|
if len_deprecated_token > len_input_token:
|
|
raise ValueError("Bad starting token: %s" % self._starting_token)
|
|
elif len_deprecated_token < len_input_token:
|
|
log.debug("Old format starting token does not contain all input "
|
|
"tokens. Setting the rest, in order, as None.")
|
|
for i in range(len_input_token - len_deprecated_token):
|
|
deprecated_token.append(None)
|
|
return dict(zip(self._input_token, deprecated_token))
|
|
|
|
|
|
class Paginator(object):
|
|
PAGE_ITERATOR_CLS = PageIterator
|
|
|
|
def __init__(self, method, pagination_config, model):
|
|
self._model = model
|
|
self._method = method
|
|
self._pagination_cfg = pagination_config
|
|
self._output_token = self._get_output_tokens(self._pagination_cfg)
|
|
self._input_token = self._get_input_tokens(self._pagination_cfg)
|
|
self._more_results = self._get_more_results_token(self._pagination_cfg)
|
|
self._non_aggregate_keys = self._get_non_aggregate_keys(
|
|
self._pagination_cfg)
|
|
self._result_keys = self._get_result_keys(self._pagination_cfg)
|
|
self._limit_key = self._get_limit_key(self._pagination_cfg)
|
|
|
|
@property
|
|
def result_keys(self):
|
|
return self._result_keys
|
|
|
|
def _get_non_aggregate_keys(self, config):
|
|
keys = []
|
|
for key in config.get('non_aggregate_keys', []):
|
|
keys.append(jmespath.compile(key))
|
|
return keys
|
|
|
|
def _get_output_tokens(self, config):
|
|
output = []
|
|
output_token = config['output_token']
|
|
if not isinstance(output_token, list):
|
|
output_token = [output_token]
|
|
for config in output_token:
|
|
output.append(jmespath.compile(config))
|
|
return output
|
|
|
|
def _get_input_tokens(self, config):
|
|
input_token = self._pagination_cfg['input_token']
|
|
if not isinstance(input_token, list):
|
|
input_token = [input_token]
|
|
return input_token
|
|
|
|
def _get_more_results_token(self, config):
|
|
more_results = config.get('more_results')
|
|
if more_results is not None:
|
|
return jmespath.compile(more_results)
|
|
|
|
def _get_result_keys(self, config):
|
|
result_key = config.get('result_key')
|
|
if result_key is not None:
|
|
if not isinstance(result_key, list):
|
|
result_key = [result_key]
|
|
result_key = [jmespath.compile(rk) for rk in result_key]
|
|
return result_key
|
|
|
|
def _get_limit_key(self, config):
|
|
return config.get('limit_key')
|
|
|
|
def paginate(self, **kwargs):
|
|
"""Create paginator object for an operation.
|
|
|
|
This returns an iterable object. Iterating over
|
|
this object will yield a single page of a response
|
|
at a time.
|
|
|
|
"""
|
|
page_params = self._extract_paging_params(kwargs)
|
|
return self.PAGE_ITERATOR_CLS(
|
|
self._method, self._input_token,
|
|
self._output_token, self._more_results,
|
|
self._result_keys, self._non_aggregate_keys,
|
|
self._limit_key,
|
|
page_params['MaxItems'],
|
|
page_params['StartingToken'],
|
|
page_params['PageSize'],
|
|
kwargs)
|
|
|
|
def _extract_paging_params(self, kwargs):
|
|
pagination_config = kwargs.pop('PaginationConfig', {})
|
|
max_items = pagination_config.get('MaxItems', None)
|
|
if max_items is not None:
|
|
max_items = int(max_items)
|
|
page_size = pagination_config.get('PageSize', None)
|
|
if page_size is not None:
|
|
if self._limit_key is None:
|
|
raise PaginationError(
|
|
message="PageSize parameter is not supported for the "
|
|
"pagination interface for this operation.")
|
|
input_members = self._model.input_shape.members
|
|
limit_key_shape = input_members.get(self._limit_key)
|
|
if limit_key_shape.type_name == 'string':
|
|
if not isinstance(page_size, six.string_types):
|
|
page_size = str(page_size)
|
|
else:
|
|
page_size = int(page_size)
|
|
return {
|
|
'MaxItems': max_items,
|
|
'StartingToken': pagination_config.get('StartingToken', None),
|
|
'PageSize': page_size,
|
|
}
|
|
|
|
|
|
class ResultKeyIterator(object):
|
|
"""Iterates over the results of paginated responses.
|
|
|
|
Each iterator is associated with a single result key.
|
|
Iterating over this object will give you each element in
|
|
the result key list.
|
|
|
|
:param pages_iterator: An iterator that will give you
|
|
pages of results (a ``PageIterator`` class).
|
|
:param result_key: The JMESPath expression representing
|
|
the result key.
|
|
|
|
"""
|
|
|
|
def __init__(self, pages_iterator, result_key):
|
|
self._pages_iterator = pages_iterator
|
|
self.result_key = result_key
|
|
|
|
def __iter__(self):
|
|
for page in self._pages_iterator:
|
|
results = self.result_key.search(page)
|
|
if results is None:
|
|
results = []
|
|
for result in results:
|
|
yield result
|