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Current Path : /lib/python3/dist-packages/botocore/



Current File : //lib/python3/dist-packages/botocore/waiter.py
# Copyright 2012-2014 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 time

import jmespath

from botocore.docs.docstring import WaiterDocstring
from botocore.utils import get_service_module_name

from . import xform_name
from .exceptions import ClientError, WaiterConfigError, WaiterError

logger = logging.getLogger(__name__)


def create_waiter_with_client(waiter_name, waiter_model, client):
    """

    :type waiter_name: str
    :param waiter_name: The name of the waiter.  The name should match
        the name (including the casing) of the key name in the waiter
        model file (typically this is CamelCasing).

    :type waiter_model: botocore.waiter.WaiterModel
    :param waiter_model: The model for the waiter configuration.

    :type client: botocore.client.BaseClient
    :param client: The botocore client associated with the service.

    :rtype: botocore.waiter.Waiter
    :return: The waiter object.

    """
    single_waiter_config = waiter_model.get_waiter(waiter_name)
    operation_name = xform_name(single_waiter_config.operation)
    operation_method = NormalizedOperationMethod(
        getattr(client, operation_name)
    )

    # Create a new wait method that will serve as a proxy to the underlying
    # Waiter.wait method. This is needed to attach a docstring to the
    # method.
    def wait(self, **kwargs):
        Waiter.wait(self, **kwargs)

    wait.__doc__ = WaiterDocstring(
        waiter_name=waiter_name,
        event_emitter=client.meta.events,
        service_model=client.meta.service_model,
        service_waiter_model=waiter_model,
        include_signature=False,
    )

    # Rename the waiter class based on the type of waiter.
    waiter_class_name = str(
        '%s.Waiter.%s'
        % (get_service_module_name(client.meta.service_model), waiter_name)
    )

    # Create the new waiter class
    documented_waiter_cls = type(waiter_class_name, (Waiter,), {'wait': wait})

    # Return an instance of the new waiter class.
    return documented_waiter_cls(
        waiter_name, single_waiter_config, operation_method
    )


def is_valid_waiter_error(response):
    error = response.get('Error')
    if isinstance(error, dict) and 'Code' in error:
        return True
    return False


class NormalizedOperationMethod:
    def __init__(self, client_method):
        self._client_method = client_method

    def __call__(self, **kwargs):
        try:
            return self._client_method(**kwargs)
        except ClientError as e:
            return e.response


class WaiterModel:
    SUPPORTED_VERSION = 2

    def __init__(self, waiter_config):
        """

        Note that the WaiterModel takes ownership of the waiter_config.
        It may or may not mutate the waiter_config.  If this is a concern,
        it is best to make a copy of the waiter config before passing it to
        the WaiterModel.

        :type waiter_config: dict
        :param waiter_config: The loaded waiter config
            from the <service>*.waiters.json file.  This can be
            obtained from a botocore Loader object as well.

        """
        self._waiter_config = waiter_config['waiters']

        # These are part of the public API.  Changing these
        # will result in having to update the consuming code,
        # so don't change unless you really need to.
        version = waiter_config.get('version', 'unknown')
        self._verify_supported_version(version)
        self.version = version
        self.waiter_names = list(sorted(waiter_config['waiters'].keys()))

    def _verify_supported_version(self, version):
        if version != self.SUPPORTED_VERSION:
            raise WaiterConfigError(
                error_msg=(
                    "Unsupported waiter version, supported version "
                    "must be: %s, but version of waiter config "
                    "is: %s" % (self.SUPPORTED_VERSION, version)
                )
            )

    def get_waiter(self, waiter_name):
        try:
            single_waiter_config = self._waiter_config[waiter_name]
        except KeyError:
            raise ValueError("Waiter does not exist: %s" % waiter_name)
        return SingleWaiterConfig(single_waiter_config)


class SingleWaiterConfig:
    """Represents the waiter configuration for a single waiter.

    A single waiter is considered the configuration for a single
    value associated with a named waiter (i.e TableExists).

    """

    def __init__(self, single_waiter_config):
        self._config = single_waiter_config

        # These attributes are part of the public API.
        self.description = single_waiter_config.get('description', '')
        # Per the spec, these three fields are required.
        self.operation = single_waiter_config['operation']
        self.delay = single_waiter_config['delay']
        self.max_attempts = single_waiter_config['maxAttempts']

    @property
    def acceptors(self):
        acceptors = []
        for acceptor_config in self._config['acceptors']:
            acceptor = AcceptorConfig(acceptor_config)
            acceptors.append(acceptor)
        return acceptors


class AcceptorConfig:
    def __init__(self, config):
        self.state = config['state']
        self.matcher = config['matcher']
        self.expected = config['expected']
        self.argument = config.get('argument')
        self.matcher_func = self._create_matcher_func()

    @property
    def explanation(self):
        if self.matcher == 'path':
            return 'For expression "{}" we matched expected path: "{}"'.format(
                self.argument,
                self.expected,
            )
        elif self.matcher == 'pathAll':
            return (
                'For expression "%s" all members matched excepted path: "%s"'
                % (self.argument, self.expected)
            )
        elif self.matcher == 'pathAny':
            return (
                'For expression "%s" we matched expected path: "%s" at least once'
                % (self.argument, self.expected)
            )
        elif self.matcher == 'status':
            return 'Matched expected HTTP status code: %s' % self.expected
        elif self.matcher == 'error':
            return 'Matched expected service error code: %s' % self.expected
        else:
            return (
                'No explanation for unknown waiter type: "%s"' % self.matcher
            )

    def _create_matcher_func(self):
        # An acceptor function is a callable that takes a single value.  The
        # parsed AWS response.  Note that the parsed error response is also
        # provided in the case of errors, so it's entirely possible to
        # handle all the available matcher capabilities in the future.
        # There's only three supported matchers, so for now, this is all
        # contained to a single method.  If this grows, we can expand this
        # out to separate methods or even objects.

        if self.matcher == 'path':
            return self._create_path_matcher()
        elif self.matcher == 'pathAll':
            return self._create_path_all_matcher()
        elif self.matcher == 'pathAny':
            return self._create_path_any_matcher()
        elif self.matcher == 'status':
            return self._create_status_matcher()
        elif self.matcher == 'error':
            return self._create_error_matcher()
        else:
            raise WaiterConfigError(
                error_msg="Unknown acceptor: %s" % self.matcher
            )

    def _create_path_matcher(self):
        expression = jmespath.compile(self.argument)
        expected = self.expected

        def acceptor_matches(response):
            if is_valid_waiter_error(response):
                return
            return expression.search(response) == expected

        return acceptor_matches

    def _create_path_all_matcher(self):
        expression = jmespath.compile(self.argument)
        expected = self.expected

        def acceptor_matches(response):
            if is_valid_waiter_error(response):
                return
            result = expression.search(response)
            if not isinstance(result, list) or not result:
                # pathAll matcher must result in a list.
                # Also we require at least one element in the list,
                # that is, an empty list should not result in this
                # acceptor match.
                return False
            for element in result:
                if element != expected:
                    return False
            return True

        return acceptor_matches

    def _create_path_any_matcher(self):
        expression = jmespath.compile(self.argument)
        expected = self.expected

        def acceptor_matches(response):
            if is_valid_waiter_error(response):
                return
            result = expression.search(response)
            if not isinstance(result, list) or not result:
                # pathAny matcher must result in a list.
                # Also we require at least one element in the list,
                # that is, an empty list should not result in this
                # acceptor match.
                return False
            for element in result:
                if element == expected:
                    return True
            return False

        return acceptor_matches

    def _create_status_matcher(self):
        expected = self.expected

        def acceptor_matches(response):
            # We don't have any requirements on the expected incoming data
            # other than it is a dict, so we don't assume there's
            # a ResponseMetadata.HTTPStatusCode.
            status_code = response.get('ResponseMetadata', {}).get(
                'HTTPStatusCode'
            )
            return status_code == expected

        return acceptor_matches

    def _create_error_matcher(self):
        expected = self.expected

        def acceptor_matches(response):
            # When the client encounters an error, it will normally raise
            # an exception.  However, the waiter implementation will catch
            # this exception, and instead send us the parsed error
            # response.  So response is still a dictionary, and in the case
            # of an error response will contain the "Error" and
            # "ResponseMetadata" key.
            return response.get("Error", {}).get("Code", "") == expected

        return acceptor_matches


class Waiter:
    def __init__(self, name, config, operation_method):
        """

        :type name: string
        :param name: The name of the waiter

        :type config: botocore.waiter.SingleWaiterConfig
        :param config: The configuration for the waiter.

        :type operation_method: callable
        :param operation_method: A callable that accepts **kwargs
            and returns a response.  For example, this can be
            a method from a botocore client.

        """
        self._operation_method = operation_method
        # The two attributes are exposed to allow for introspection
        # and documentation.
        self.name = name
        self.config = config

    def wait(self, **kwargs):
        acceptors = list(self.config.acceptors)
        current_state = 'waiting'
        # pop the invocation specific config
        config = kwargs.pop('WaiterConfig', {})
        sleep_amount = config.get('Delay', self.config.delay)
        max_attempts = config.get('MaxAttempts', self.config.max_attempts)
        last_matched_acceptor = None
        num_attempts = 0

        while True:
            response = self._operation_method(**kwargs)
            num_attempts += 1
            for acceptor in acceptors:
                if acceptor.matcher_func(response):
                    last_matched_acceptor = acceptor
                    current_state = acceptor.state
                    break
            else:
                # If none of the acceptors matched, we should
                # transition to the failure state if an error
                # response was received.
                if is_valid_waiter_error(response):
                    # Transition to a failure state, which we
                    # can just handle here by raising an exception.
                    raise WaiterError(
                        name=self.name,
                        reason='An error occurred (%s): %s'
                        % (
                            response['Error'].get('Code', 'Unknown'),
                            response['Error'].get('Message', 'Unknown'),
                        ),
                        last_response=response,
                    )
            if current_state == 'success':
                logger.debug(
                    "Waiting complete, waiter matched the " "success state."
                )
                return
            if current_state == 'failure':
                reason = 'Waiter encountered a terminal failure state: %s' % (
                    acceptor.explanation
                )
                raise WaiterError(
                    name=self.name,
                    reason=reason,
                    last_response=response,
                )
            if num_attempts >= max_attempts:
                if last_matched_acceptor is None:
                    reason = 'Max attempts exceeded'
                else:
                    reason = (
                        'Max attempts exceeded. Previously accepted state: %s'
                        % (acceptor.explanation)
                    )
                raise WaiterError(
                    name=self.name,
                    reason=reason,
                    last_response=response,
                )
            time.sleep(sleep_amount)