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# coding: utf-8 # Copyright (c) 2016, 2024, Oracle and/or its affiliates. All rights reserved. # This software is dual-licensed to you under the Universal Permissive License (UPL) 1.0 as shown at https://oss.oracle.com/licenses/upl or Apache License 2.0 as shown at http://www.apache.org/licenses/LICENSE-2.0. You may choose either license. # NOTE: This class is auto generated by OracleSDKGenerator. DO NOT EDIT. API Version: 20191010 import oci # noqa: F401 from oci.util import WAIT_RESOURCE_NOT_FOUND # noqa: F401 class BlockchainPlatformClientCompositeOperations(object): """ This class provides a wrapper around :py:class:`~oci.blockchain.BlockchainPlatformClient` and offers convenience methods for operations that would otherwise need to be chained together. For example, instead of performing an action on a resource (e.g. launching an instance, creating a load balancer) and then using a waiter to wait for the resource to enter a given state, you can call a single method in this class to accomplish the same functionality """ def __init__(self, client, **kwargs): """ Creates a new BlockchainPlatformClientCompositeOperations object :param BlockchainPlatformClient client: The service client which will be wrapped by this object """ self.client = client def change_blockchain_platform_compartment_and_wait_for_state(self, blockchain_platform_id, change_blockchain_platform_compartment_details, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.change_blockchain_platform_compartment` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param oci.blockchain.models.ChangeBlockchainPlatformCompartmentDetails change_blockchain_platform_compartment_details: (required) Input payload to move the resource to a different compartment. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.change_blockchain_platform_compartment` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.change_blockchain_platform_compartment(blockchain_platform_id, change_blockchain_platform_compartment_details, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def create_blockchain_platform_and_wait_for_state(self, create_blockchain_platform_details, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.create_blockchain_platform` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param oci.blockchain.models.CreateBlockchainPlatformDetails create_blockchain_platform_details: (required) Details for the new service. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.create_blockchain_platform` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.create_blockchain_platform(create_blockchain_platform_details, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def create_osn_and_wait_for_state(self, blockchain_platform_id, create_osn_details, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.create_osn` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param oci.blockchain.models.CreateOsnDetails create_osn_details: (required) Input payload to create blockchain platform OSN. The payload cannot be empty. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.create_osn` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.create_osn(blockchain_platform_id, create_osn_details, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def create_peer_and_wait_for_state(self, blockchain_platform_id, create_peer_details, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.create_peer` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param oci.blockchain.models.CreatePeerDetails create_peer_details: (required) Input payload to create a blockchain platform peer. The payload cannot be empty. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.create_peer` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.create_peer(blockchain_platform_id, create_peer_details, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def delete_blockchain_platform_and_wait_for_state(self, blockchain_platform_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_blockchain_platform` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_blockchain_platform` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = None try: operation_result = self.client.delete_blockchain_platform(blockchain_platform_id, **operation_kwargs) except oci.exceptions.ServiceError as e: if e.status == 404: return WAIT_RESOURCE_NOT_FOUND else: raise e if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def delete_osn_and_wait_for_state(self, blockchain_platform_id, osn_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_osn` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param str osn_id: (required) OSN identifier. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_osn` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = None try: operation_result = self.client.delete_osn(blockchain_platform_id, osn_id, **operation_kwargs) except oci.exceptions.ServiceError as e: if e.status == 404: return WAIT_RESOURCE_NOT_FOUND else: raise e if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def delete_peer_and_wait_for_state(self, blockchain_platform_id, peer_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_peer` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param str peer_id: (required) Peer identifier. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_peer` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = None try: operation_result = self.client.delete_peer(blockchain_platform_id, peer_id, **operation_kwargs) except oci.exceptions.ServiceError as e: if e.status == 404: return WAIT_RESOURCE_NOT_FOUND else: raise e if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def delete_work_request_and_wait_for_state(self, work_request_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_work_request` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str work_request_id: (required) The ID of the asynchronous request. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.delete_work_request` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = None try: operation_result = self.client.delete_work_request(work_request_id, **operation_kwargs) except oci.exceptions.ServiceError as e: if e.status == 404: return WAIT_RESOURCE_NOT_FOUND else: raise e if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def scale_blockchain_platform_and_wait_for_state(self, blockchain_platform_id, scale_blockchain_platform_details, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.scale_blockchain_platform` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param oci.blockchain.models.ScaleBlockchainPlatformDetails scale_blockchain_platform_details: (required) Input payload to scaleout blockchain platform. The payload cannot be empty. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.scale_blockchain_platform` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.scale_blockchain_platform(blockchain_platform_id, scale_blockchain_platform_details, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def start_blockchain_platform_and_wait_for_state(self, blockchain_platform_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.start_blockchain_platform` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.start_blockchain_platform` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.start_blockchain_platform(blockchain_platform_id, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def stop_blockchain_platform_and_wait_for_state(self, blockchain_platform_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.stop_blockchain_platform` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.stop_blockchain_platform` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.stop_blockchain_platform(blockchain_platform_id, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def update_blockchain_platform_and_wait_for_state(self, update_blockchain_platform_details, blockchain_platform_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.update_blockchain_platform` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param oci.blockchain.models.UpdateBlockchainPlatformDetails update_blockchain_platform_details: (required) The Blockchain Platform fields to update. Fields that are not provided will not be updated. :param str blockchain_platform_id: (required) Unique service identifier. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.update_blockchain_platform` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.update_blockchain_platform(update_blockchain_platform_details, blockchain_platform_id, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def update_osn_and_wait_for_state(self, blockchain_platform_id, osn_id, update_osn_details, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.update_osn` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param str osn_id: (required) OSN identifier. :param oci.blockchain.models.UpdateOsnDetails update_osn_details: (required) Input payload to update a blockchain platform OSN. The payload cannot be empty. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.update_osn` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.update_osn(blockchain_platform_id, osn_id, update_osn_details, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def update_peer_and_wait_for_state(self, blockchain_platform_id, peer_id, update_peer_details, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.update_peer` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param str blockchain_platform_id: (required) Unique service identifier. :param str peer_id: (required) Peer identifier. :param oci.blockchain.models.UpdatePeerDetails update_peer_details: (required) Input payload to update a blockchain platform peer. The payload cannot be empty. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.update_peer` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.update_peer(blockchain_platform_id, peer_id, update_peer_details, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e) def upgrade_blockchain_platform_and_wait_for_state(self, upgrade_blockchain_platform_details, blockchain_platform_id, wait_for_states=[], operation_kwargs={}, waiter_kwargs={}): """ Calls :py:func:`~oci.blockchain.BlockchainPlatformClient.upgrade_blockchain_platform` and waits for the :py:class:`~oci.blockchain.models.WorkRequest` to enter the given state(s). :param oci.blockchain.models.UpgradeBlockchainPlatformDetails upgrade_blockchain_platform_details: (required) Details for the new version to which it needs to be upgraded. :param str blockchain_platform_id: (required) Unique service identifier. :param list[str] wait_for_states: An array of states to wait on. These should be valid values for :py:attr:`~oci.blockchain.models.WorkRequest.status` :param dict operation_kwargs: A dictionary of keyword arguments to pass to :py:func:`~oci.blockchain.BlockchainPlatformClient.upgrade_blockchain_platform` :param dict waiter_kwargs: A dictionary of keyword arguments to pass to the :py:func:`oci.wait_until` function. For example, you could pass ``max_interval_seconds`` or ``max_interval_seconds`` as dictionary keys to modify how long the waiter function will wait between retries and the maximum amount of time it will wait """ operation_result = self.client.upgrade_blockchain_platform(upgrade_blockchain_platform_details, blockchain_platform_id, **operation_kwargs) if not wait_for_states: return operation_result lowered_wait_for_states = [w.lower() for w in wait_for_states] if 'opc-work-request-id' not in operation_result.headers: return operation_result wait_for_resource_id = operation_result.headers['opc-work-request-id'] try: waiter_result = oci.wait_until( self.client, self.client.get_work_request(wait_for_resource_id), evaluate_response=lambda r: getattr(r.data, 'status') and getattr(r.data, 'status').lower() in lowered_wait_for_states, **waiter_kwargs ) result_to_return = waiter_result return result_to_return except Exception as e: raise oci.exceptions.CompositeOperationError(partial_results=[operation_result], cause=e)
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