class FirmwareBundles(object): URI = '/rest/firmware-bundles' def __init__(self, con): self._connection = con self._client = ResourceClient(con, self.URI) self._task_monitor = TaskMonitor(con) def upload(self, file_path, timeout=-1): """ Upload an SPP ISO image file or a hotfix file to the appliance. The API supports upload of one hotfix at a time into the system. For the successful upload of a hotfix, ensure its original name and extension are not altered. Args: file_path: Full path to firmware. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. Returns: dict: Information about the updated firmware bundle. """ upload_file_name = os.path.basename(file_path) response, body = self._connection.post_multipart( self.URI, None, file_path, upload_file_name) if response.status >= 400: raise HPOneViewException(body.get('message')) return self._task_monitor.wait_for_task(body, timeout)
class FirmwareBundles(object): URI = '/rest/firmware-bundles' def __init__(self, con): self._connection = con self._client = ResourceClient(con, self.URI) self._task_monitor = TaskMonitor(con) def upload(self, file_path, timeout=-1): """ Upload an SPP ISO image file or a hotfix file to the appliance. The API supports upload of one hotfix at a time into the system. For the successful upload of a hotfix, ensure its original name and extension are not altered. Args: file_path: Full path to firmware. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. Returns: dict: Information about the updated firmware bundle. """ upload_file_name = os.path.basename(file_path) response, body = self._connection.post_multipart(self.URI, None, file_path, upload_file_name) if response.status >= 400: raise HPOneViewException(body.get('message')) return self._task_monitor.wait_for_task(body, timeout)
def __init__(self, con): self._connection = con self._client = ResourceClient(con, self.URI) self._task_monitor = TaskMonitor(con)
def __init__(self, con, uri): self._connection = con self._uri = uri self._task_monitor = TaskMonitor(con)
class ResourceClient(object): """ This class implements common functions for HpOneView API rest """ def __init__(self, con, uri): self._connection = con self._uri = uri self._task_monitor = TaskMonitor(con) def get_all(self, start=0, count=-1, filter='', query='', sort='', view='', fields='', uri=None): """ Gets all items according with the given arguments. More than one request can be send to get the items, regardless the query parameter 'count', since the actual number of items in the response may differ from the requested count. Some types of resource has a limited number of items returned on each call. For those resources, additional calls are made to the API to retrieve any other items matching the given filter. The actual number of items can also diverge from the requested call if the requested number of items would take too long. The use of optional parameters for OneView 2.0 is described at: http://h17007.www1.hpe.com/docs/enterprise/servers/oneview2.0/cic-api/en/api-docs/current/index.html Note: Single quote - "'" - inside a query parameter is not supported by OneView API. Args: start: The first item to return, using 0-based indexing. If not specified, the default is 0 - start with the first available item. count: The number of resources to return. A count of -1 requests all the items (default). filter: A general filter/query string to narrow the list of items returned. The default is no filter - all resources are returned. query: A single query parameter can do what would take multiple parameters or multiple GET requests using filter. Use query for more complex queries. NOTE: This parameter is experimental for OneView 2.0. sort: The sort order of the returned data set. By default, the sort order is based on create time, with the oldest entry first. view: Returns a specific subset of the attributes of the resource or collection by specifying the name of a predefined view. The default view is expand (show all attributes of the resource, and all elements of collections or resources). fields: Nome of the fields. uri: A specific URI (optional) Returns: list: A list of items matching the specified filter. """ if filter: filter = "&filter=" + quote(filter) if query: query = "&query=" + quote(query) if sort: sort = "&sort=" + quote(sort) if view: view = "&view=" + quote(view) if fields: fields = "&fields=" + quote(fields) path = uri if uri else self._uri self.__validate_resource_uri(path) symbol = '?' if '?' not in path else '&' uri = "{0}{1}start={2}&count={3}{4}{5}{6}{7}{8}".format( path, symbol, start, count, filter, query, sort, view, fields) logger.debug('Getting all resources with uri: {0}'.format(uri)) result = self.__do_requests_to_getall(uri, count) return result def delete_all(self, filter, force=False, timeout=-1): """ Deletes all resources from the appliance that match the provided filter. Args: filter: A general filter/query string to narrow the list of items deleted. force: If set to true the operation completes despite any problems with network connectivity or errors on the resource itself. The default is false. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. Returns: bool: Indicating if the resources were successfully deleted. """ uri = "{}?filter={}&force={}".format(self._uri, quote(filter), force) logger.debug("Delete all resources (uri = %s)" % uri) task, body = self._connection.delete(uri) if not task: # 204 NO CONTENT # Successful return from a synchronous delete operation. return True return self._task_monitor.wait_for_task(task, timeout=timeout) def delete(self, resource, force=False, timeout=-1, custom_headers=None): if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) if isinstance(resource, dict): if 'uri' in resource and resource['uri']: uri = resource['uri'] else: logger.exception(RESOURCE_CLIENT_UNKNOWN_OBJECT_TYPE) raise HPOneViewUnknownType(RESOURCE_CLIENT_UNKNOWN_OBJECT_TYPE) else: uri = self._uri + "/" + resource if force: uri += '?force=True' logger.debug("Delete resource (uri = %s, resource = %s)" % (self._uri, str(resource))) task, body = self._connection.delete(uri, custom_headers=custom_headers) if not task: # 204 NO CONTENT # Successful return from a synchronous delete operation. return True task = self._task_monitor.wait_for_task(task, timeout=timeout) return task def get_schema(self): logger.debug('Get schema (uri = %s, resource = %s)' % (self._uri, self._uri)) return self._connection.get(self._uri + '/schema') def get(self, id_or_uri): """ Args: id_or_uri: Could be either the resource id or the resource uri. Returns: The requested resource. """ uri = self.build_uri(id_or_uri) logger.debug('Get resource (uri = %s, ID = %s)' % (uri, str(id_or_uri))) return self._connection.get(uri) def get_collection(self, id_or_uri, filter=''): """ Retrieves a collection of resources. Use this function when the 'start' and 'count' parameters are not allowed in the GET call. Otherwise, use get_all instead. Optional filtering criteria may be specified. Args: id_or_uri: Could be either the resource id or the resource uri. filter: General filter/query string. Returns: Collection of the requested resource. """ if filter: filter = "?filter=" + quote(filter) uri = "{uri}{filter}".format(uri=self.build_uri(id_or_uri), filter=filter) logger.debug('Get resource collection (uri = %s)' % uri) response = self._connection.get(uri) return self.__get_members(response) def update_with_zero_body(self, uri, timeout=-1, custom_headers=None): """ Makes a PUT request to update a resource, when no request body is required. Args: uri: Could be either the resource id or the resource uri. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Updated resource. """ logger.debug('Update with zero length body (uri = %s)' % uri) return self.__do_put(uri, None, timeout, custom_headers) def update(self, resource, uri=None, force=False, timeout=-1, custom_headers=None): """ Makes a PUT request to update a resource, when a request body is required. Args: uri: Could be either the resource id or the resource uri. force: If set to true the operation completes despite any problems with network connectivity or errors on the resource itself. The default is false. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Updated resource. """ if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) logger.debug('Update async (uri = %s, resource = %s)' % (self._uri, str(resource))) if not uri: uri = resource['uri'] if force: uri += '?force=True' return self.__do_put(uri, resource, timeout, custom_headers) def create_with_zero_body(self, uri=None, timeout=-1, custom_headers=None): """ Makes a POST request to create a resource, when no request body is required. Args: uri: Could be either the resource id or the resource uri. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Created resource. """ if not uri: uri = self._uri logger.debug('Create with zero body (uri = %s)' % uri) return self.__do_post(uri, {}, timeout, custom_headers) def create(self, resource, uri=None, timeout=-1, custom_headers=None): """ Makes a POST request to create a resource, when a request body is required. Args: uri: Could be either the resource id or the resource uri. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Created resource. """ if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) if not uri: uri = self._uri logger.debug('Create (uri = %s, resource = %s)' % (uri, str(resource))) return self.__do_post(uri, resource, timeout, custom_headers) def patch(self, id_or_uri, operation, path, value, timeout=-1, custom_headers=None): """ Uses the PATCH to update a resource. Only one operation can be performed in each PATCH call. Args: id_or_uri: Could be either the resource id or the resource uri operation: Patch operation path: Path value: Value timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. Returns: Updated resource. """ uri = self.build_uri(id_or_uri) logger.debug( 'Patch resource (uri = %s, op = %s, path = %s, value = %s)' % (uri, operation, path, value)) patch_request = [{'op': operation, 'path': path, 'value': value}] task, entity = self._connection.patch(uri, patch_request, custom_headers=custom_headers) if not task: return entity return self._task_monitor.wait_for_task(task, timeout) def get_by(self, field, value, uri=None): """ This function uses get_all passing a filter. The search is case insensitive. Args: field: Field name to filter. value: Value to filter. uri: Resource uri. Returns: dict """ if not field: logger.exception(RESOURCE_CLIENT_INVALID_FIELD) raise ValueError(RESOURCE_CLIENT_INVALID_FIELD) if not uri: uri = self._uri self.__validate_resource_uri(uri) logger.debug('Get by (uri = %s, field = %s, value = %s)' % (uri, field, str(value))) filter = "\"'{0}'='{1}'\"".format(field, value) return self.get_all(filter=filter, uri=uri) def get_by_name(self, name): """ Retrieve a resource by his name. Args: name: Resource name. Returns: dict """ result = self.get_by('name', name) if not result: return None else: return result[0] def get_utilization(self, id_or_uri, fields=None, filter=None, refresh=False, view=None): """ Retrieves historical utilization data for the specified resource, metrics, and time span. Args: id_or_uri: Resource identification fields: Name of the supported metric(s) to be retrieved in the format METRIC[,METRIC]... If unspecified, all metrics supported are returned. filter: Filters should be in the format FILTER_NAME=VALUE[,FILTER_NAME=VALUE]... E.g.: 'startDate=2016-05-30T11:20:44.541Z,endDate=2016-05-30T19:20:44.541Z' startDate Start date of requested starting time range in ISO 8601 format. If omitted, the startDate is determined by the endDate minus 24 hours. endDate End date of requested starting time range in ISO 8601 format. When omitted the endDate includes the latest data sample available. If an excessive number of samples would otherwise be returned, the results will be segmented. The caller is responsible for comparing the returned sliceStartTime with the requested startTime in the response. If the sliceStartTime is greater than the oldestSampleTime and the requested start time, the caller is responsible for repeating the request with endTime set to sliceStartTime to obtain the next segment. This process is repeated until the full data set is retrieved. If the resource has no data, the UtilizationData is still returned, but will contain no samples and sliceStartTime/sliceEndTime will be equal. oldestSampleTime/newestSampleTime will still be set appropriately (null if no data is available). If the filter just does not happen to overlap the data that a resource does have, then the metric history service will return null sample values for any missing samples. refresh: Specifies that if necessary an additional request will be queued to obtain the most recent utilization data from the iLO. The response will not include any refreshed data. To track the availability of the newly collected data, monitor the TaskResource identified by the refreshTaskUri property in the response. If null, no refresh was queued. view: Specifies the resolution interval length of the samples to be retrieved. This is reflected in the resolution in the returned response. Utilization data is automatically purged to stay within storage space constraints. Supported views are listed below. native Resolution of the samples returned will be one sample for each 5-minute time period. This is the default view and matches the resolution of the data returned by the iLO. Samples at this resolution are retained up to one year. hour Resolution of the samples returned will be one sample for each 60-minute time period. Samples are calculated by averaging the available 5-minute data samples that occurred within the hour, except for PeakPower which is calculated by reporting the peak observed 5-minute sample value data during the hour. Samples at this resolution are retained up to three years. day Resolution of the samples returned will be one sample for each 24-hour time period. One day is a 24-hour period that starts at midnight GMT regardless of the time zone in which the appliance or client is located. Samples are calculated by averaging the available 5-minute data samples that occurred during the day, except for PeakPower which is calculated by reporting the peak observed 5-minute sample value data during the day. Samples at this resolution are retained up to three years. Returns: dict """ if not id_or_uri: raise ValueError(RESOURCE_CLIENT_INVALID_ID) query = '' if filter: query += self.__make_query_filter(filter) if fields: query += "&fields=" + quote(fields) if refresh: query += "&refresh=true" if view: query += "&view=" + quote(view) if query: query = "?" + query[1:] uri = "{0}/utilization{1}".format(self.build_uri(id_or_uri), query) return self._connection.get(uri) def create_report(self, uri, timeout=-1): """ Creates a report and returns the output. Args: uri: URI timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. Returns: list: """ logger.debug('Creating Report (uri = %s)'.format(uri)) task, _ = self._connection.post(uri, {}) if not task: raise HPOneViewException(RESOURCE_CLIENT_TASK_EXPECTED) task = self._task_monitor.get_completed_task(task, timeout) return task['taskOutput'] def build_uri(self, id_or_uri): if not id_or_uri: logger.exception(RESOURCE_CLIENT_INVALID_ID) raise ValueError(RESOURCE_CLIENT_INVALID_ID) if "/" in id_or_uri: self.__validate_resource_uri(id_or_uri) return id_or_uri else: return self._uri + "/" + id_or_uri def __validate_resource_uri(self, path): if self._uri not in path: logger.exception('Get by uri : unrecognized uri: (%s)' % path) raise HPOneViewUnknownType(UNRECOGNIZED_URI) def __make_query_filter(self, filter): filters = filter.split(",") formated_filter = "&filter=".join(quote(f) for f in filters) return "&filter=" + formated_filter def __get_members(self, mlist): if mlist and 'members' in mlist: return mlist['members'] else: return [] def __do_post(self, uri, resource, timeout, custom_headers): task, entity = self._connection.post(uri, resource, custom_headers=custom_headers) if not task: return entity return self._task_monitor.wait_for_task(task, timeout) def __do_put(self, uri, resource, timeout, custom_headers): task, body = self._connection.put(uri, resource, custom_headers=custom_headers) if not task: return body return self._task_monitor.wait_for_task(task, timeout) def __do_requests_to_getall(self, uri, count): items = [] request_needed = True while request_needed: logger.debug( 'Making HTTP request to get all resources. Uri: {0}'.format( uri)) response = self._connection.get(uri) members = self.__get_members(response) uri = response.get('nextPageUri') items += members logger.debug( "Response getAll: nextPageUri = {0}, members list length: {1}". format(uri, str(len(members)))) request_needed = uri and not len(members) == 0 and ( len(items) < count or count == -1) logger.debug('Total # of members found = {0}'.format(str(len(items)))) return items
class ResourceClient(object): """ This class implements common functions for HpOneView API rest """ def __init__(self, con, uri): self._connection = con self._uri = uri self._task_monitor = TaskMonitor(con) def get_all(self, start=0, count=-1, filter='', query='', sort='', view='', fields='', uri=None): """ Gets all items according with the given arguments. More than one request can be send to get the items, regardless the query parameter 'count', because the actual number of items in the response might differ from the requested count. Some types of resource have a limited number of items returned on each call. For those resources, additional calls are made to the API to retrieve any other items matching the given filter. The actual number of items can also differ from the requested call if the requested number of items would take too long. The use of optional parameters for OneView 2.0 is described at: http://h17007.www1.hpe.com/docs/enterprise/servers/oneview2.0/cic-api/en/api-docs/current/index.html Note: Single quote - "'" - inside a query parameter is not supported by OneView API. Args: start: The first item to return, using 0-based indexing. If not specified, the default is 0 - start with the first available item. count: The number of resources to return. A count of -1 requests all items (default). filter (list or str): A general filter/query string to narrow the list of items returned. The default is no filter; all resources are returned. query: A single query parameter can do what would take multiple parameters or multiple GET requests using filter. Use query for more complex queries. NOTE: This parameter is experimental for OneView 2.0. sort: The sort order of the returned data set. By default, the sort order is based on create time with the oldest entry first. view: Returns a specific subset of the attributes of the resource or collection by specifying the name of a predefined view. The default view is expand (show all attributes of the resource and all elements of the collections or resources). fields: Name of the fields. uri: A specific URI (optional) Returns: list: A list of items matching the specified filter. """ if filter: filter = self.__make_query_filter(filter) if query: query = "&query=" + quote(query) if sort: sort = "&sort=" + quote(sort) if view: view = "&view=" + quote(view) if fields: fields = "&fields=" + quote(fields) path = uri if uri else self._uri self.__validate_resource_uri(path) symbol = '?' if '?' not in path else '&' uri = "{0}{1}start={2}&count={3}{4}{5}{6}{7}{8}".format(path, symbol, start, count, filter, query, sort, view, fields) logger.debug('Getting all resources with uri: {0}'.format(uri)) result = self.__do_requests_to_getall(uri, count) return result def delete_all(self, filter, force=False, timeout=-1): """ Deletes all resources from the appliance that match the provided filter. Args: filter: A general filter/query string to narrow the list of items deleted. force: If set to true, the operation completes despite any problems with network connectivity or errors on the resource itself. The default is false. timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. Returns: bool: Indicates if the resources were successfully deleted. """ uri = "{}?filter={}&force={}".format(self._uri, quote(filter), force) logger.debug("Delete all resources (uri = %s)" % uri) task, body = self._connection.delete(uri) if not task: # 204 NO CONTENT # Successful return from a synchronous delete operation. return True return self._task_monitor.wait_for_task(task, timeout=timeout) def delete(self, resource, force=False, timeout=-1, custom_headers=None): if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) if isinstance(resource, dict): if 'uri' in resource and resource['uri']: uri = resource['uri'] else: logger.exception(RESOURCE_CLIENT_UNKNOWN_OBJECT_TYPE) raise HPOneViewUnknownType(RESOURCE_CLIENT_UNKNOWN_OBJECT_TYPE) else: uri = self.build_uri(resource) if force: uri += '?force=True' logger.debug("Delete resource (uri = %s, resource = %s)" % (self._uri, str(resource))) task, body = self._connection.delete(uri, custom_headers=custom_headers) if not task: # 204 NO CONTENT # Successful return from a synchronous delete operation. return True task = self._task_monitor.wait_for_task(task, timeout=timeout) return task def get_schema(self): logger.debug('Get schema (uri = %s, resource = %s)' % (self._uri, self._uri)) return self._connection.get(self._uri + '/schema') def get(self, id_or_uri): """ Args: id_or_uri: Can be either the resource ID or the resource URI. Returns: The requested resource. """ uri = self.build_uri(id_or_uri) logger.debug('Get resource (uri = %s, ID = %s)' % (uri, str(id_or_uri))) return self._connection.get(uri) def get_collection(self, id_or_uri, filter=''): """ Retrieves a collection of resources. Use this function when the 'start' and 'count' parameters are not allowed in the GET call. Otherwise, use get_all instead. Optional filtering criteria may be specified. Args: id_or_uri: Can be either the resource ID or the resource URI. filter (list or str): General filter/query string. Returns: Collection of the requested resource. """ if filter: filter = self.__make_query_filter(filter) filter = "?" + filter[1:] uri = "{uri}{filter}".format(uri=self.build_uri(id_or_uri), filter=filter) logger.debug('Get resource collection (uri = %s)' % uri) response = self._connection.get(uri) return self.__get_members(response) def update_with_zero_body(self, uri, timeout=-1, custom_headers=None): """ Makes a PUT request to update a resource when no request body is required. Args: uri: Can be either the resource ID or the resource URI. timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Updated resource. """ logger.debug('Update with zero length body (uri = %s)' % uri) return self.__do_put(uri, None, timeout, custom_headers) def update(self, resource, uri=None, force=False, timeout=-1, custom_headers=None, default_values={}): """ Makes a PUT request to update a resource when a request body is required. Args: resource: OneView resource dictionary. uri: Can be either the resource ID or the resource URI. force: If set to true, the operation completes despite any problems with network connectivity or errors on the resource itself. The default is false. timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. default_values: Dictionary with default values grouped by OneView API version. This dictionary will be be merged with the resource dictionary only if the dictionary does not contain the keys. This argument is optional and the default value is an empty dictionary. Ex.: default_values = { '200': {"type": "logical-switch-group"}, '300': {"type": "logical-switch-groupV300"} } Returns: Updated resource. """ if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) logger.debug('Update async (uri = %s, resource = %s)' % (self._uri, str(resource))) if not uri: uri = resource['uri'] if force: uri += '?force=True' resource = self.merge_default_values(resource, default_values) return self.__do_put(uri, resource, timeout, custom_headers) def create_with_zero_body(self, uri=None, timeout=-1, custom_headers=None): """ Makes a POST request to create a resource when no request body is required. Args: uri: Can be either the resource ID or the resource URI. timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Created resource. """ if not uri: uri = self._uri logger.debug('Create with zero body (uri = %s)' % uri) return self.__do_post(uri, {}, timeout, custom_headers) def create(self, resource, uri=None, timeout=-1, custom_headers=None, default_values={}): """ Makes a POST request to create a resource when a request body is required. Args: resource: OneView resource dictionary. uri: Can be either the resource ID or the resource URI. timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. default_values: Dictionary with default values grouped by OneView API version. This dictionary will be be merged with the resource dictionary only if the dictionary does not contain the keys. This argument is optional and the default value is an empty dictionary. Ex.: default_values = { '200': {"type": "logical-switch-group"}, '300': {"type": "logical-switch-groupV300"} } Returns: Created resource. """ if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) if not uri: uri = self._uri logger.debug('Create (uri = %s, resource = %s)' % (uri, str(resource))) resource = self.merge_default_values(resource, default_values) return self.__do_post(uri, resource, timeout, custom_headers) def upload(self, file_path, uri=None, timeout=-1): """ Makes a multipart request. Args: file_path: File to upload. uri: A specific URI (optional). timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. Returns: dict: Response body. """ if not uri: uri = self._uri upload_file_name = os.path.basename(file_path) task, entity = self._connection.post_multipart_with_response_handling(uri, file_path, upload_file_name) if not task: return entity return self._task_monitor.wait_for_task(task, timeout) def patch(self, id_or_uri, operation, path, value, timeout=-1, custom_headers=None): """ Uses the PATCH to update a resource. Only one operation can be performed in each PATCH call. Args: id_or_uri: Can be either the resource ID or the resource URI. operation: Patch operation path: Path value: Value timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. Returns: Updated resource. """ patch_request_body = [{'op': operation, 'path': path, 'value': value}] return self.patch_request(id_or_uri=id_or_uri, body=patch_request_body, timeout=timeout, custom_headers=custom_headers) def patch_request(self, id_or_uri, body, timeout=-1, custom_headers=None): """ Uses the PATCH to update a resource. Only one operation can be performed in each PATCH call. Args: id_or_uri: Can be either the resource ID or the resource URI. body: Patch request body timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. Returns: Updated resource. """ uri = self.build_uri(id_or_uri) logger.debug('Patch resource (uri = %s, data = %s)' % (uri, body)) custom_headers_copy = custom_headers.copy() if custom_headers else {} if self._connection._apiVersion >= 300 and 'Content-Type' not in custom_headers_copy: custom_headers_copy['Content-Type'] = 'application/json-patch+json' task, entity = self._connection.patch(uri, body, custom_headers=custom_headers_copy) if not task: return entity return self._task_monitor.wait_for_task(task, timeout) def get_by(self, field, value, uri=None): """ This function uses get_all passing a filter. The search is case-insensitive. Args: field: Field name to filter. value: Value to filter. uri: Resource uri. Returns: dict """ if not field: logger.exception(RESOURCE_CLIENT_INVALID_FIELD) raise ValueError(RESOURCE_CLIENT_INVALID_FIELD) if not uri: uri = self._uri self.__validate_resource_uri(uri) logger.debug('Get by (uri = %s, field = %s, value = %s)' % (uri, field, str(value))) filter = "\"{0}='{1}'\"".format(field, value) results = self.get_all(filter=filter, uri=uri) # Workaround when the OneView filter does not work, it will filter again if "." not in field: # This filter only work for the first level results = [item for item in results if str(item.get(field, '')).lower() == value.lower()] return results def get_by_name(self, name): """ Retrieve a resource by its name. Args: name: Resource name. Returns: dict """ result = self.get_by('name', name) if not result: return None else: return result[0] def get_utilization(self, id_or_uri, fields=None, filter=None, refresh=False, view=None): """ Retrieves historical utilization data for the specified resource, metrics, and time span. Args: id_or_uri: Resource identification fields: Name of the supported metric(s) to be retrieved in the format METRIC[,METRIC]... If unspecified, all metrics supported are returned. filter (list or str): Filters should be in the format FILTER_NAME=VALUE[,FILTER_NAME=VALUE]... E.g.: 'startDate=2016-05-30T11:20:44.541Z,endDate=2016-05-30T19:20:44.541Z' startDate Start date of requested starting time range in ISO 8601 format. If omitted, the startDate is determined by the endDate minus 24 hours. endDate End date of requested starting time range in ISO 8601 format. When omitted, the endDate includes the latest data sample available. If an excessive number of samples would otherwise be returned, the results will be segmented. The caller is responsible for comparing the returned sliceStartTime with the requested startTime in the response. If the sliceStartTime is greater than the oldestSampleTime and the requested start time, the caller is responsible for repeating the request with endTime set to sliceStartTime to obtain the next segment. This process is repeated until the full data set is retrieved. If the resource has no data, the UtilizationData is still returned but will contain no samples and sliceStartTime/sliceEndTime will be equal. oldestSampleTime/newestSampleTime will still be set appropriately (null if no data is available). If the filter does not happen to overlap the data that a resource has, then the metric history service will return null sample values for any missing samples. refresh: Specifies that if necessary, an additional request will be queued to obtain the most recent utilization data from the iLO. The response will not include any refreshed data. To track the availability of the newly collected data, monitor the TaskResource identified by the refreshTaskUri property in the response. If null, no refresh was queued. view: Specifies the resolution interval length of the samples to be retrieved. This is reflected in the resolution in the returned response. Utilization data is automatically purged to stay within storage space constraints. Supported views are listed below: native Resolution of the samples returned will be one sample for each 5-minute time period. This is the default view and matches the resolution of the data returned by the iLO. Samples at this resolution are retained up to one year. hour Resolution of the samples returned will be one sample for each 60-minute time period. Samples are calculated by averaging the available 5-minute data samples that occurred within the hour, except for PeakPower which is calculated by reporting the peak observed 5-minute sample value data during the hour. Samples at this resolution are retained up to three years. day Resolution of the samples returned will be one sample for each 24-hour time period. One day is a 24-hour period that starts at midnight GMT regardless of the time zone in which the appliance or client is located. Samples are calculated by averaging the available 5-minute data samples that occurred during the day, except for PeakPower which is calculated by reporting the peak observed 5-minute sample value data during the day. Samples at this resolution are retained up to three years. Returns: dict """ if not id_or_uri: raise ValueError(RESOURCE_CLIENT_INVALID_ID) query = '' if filter: query += self.__make_query_filter(filter) if fields: query += "&fields=" + quote(fields) if refresh: query += "&refresh=true" if view: query += "&view=" + quote(view) if query: query = "?" + query[1:] uri = "{0}/utilization{1}".format(self.build_uri(id_or_uri), query) return self._connection.get(uri) def create_report(self, uri, timeout=-1): """ Creates a report and returns the output. Args: uri: URI timeout: Timeout in seconds. Wait for task completion by default. The timeout does not abort the operation in OneView; it just stops waiting for its completion. Returns: list: """ logger.debug('Creating Report (uri = %s)'.format(uri)) task, _ = self._connection.post(uri, {}) if not task: raise HPOneViewException(RESOURCE_CLIENT_TASK_EXPECTED) task = self._task_monitor.get_completed_task(task, timeout) return task['taskOutput'] def build_uri(self, id_or_uri): if not id_or_uri: logger.exception(RESOURCE_CLIENT_INVALID_ID) raise ValueError(RESOURCE_CLIENT_INVALID_ID) if "/" in id_or_uri: self.__validate_resource_uri(id_or_uri) return id_or_uri else: return self._uri + "/" + id_or_uri def build_subresource_uri(self, resource_id_or_uri=None, subresource_id_or_uri=None, subresource_path=''): if subresource_id_or_uri and "/" in subresource_id_or_uri: return subresource_id_or_uri else: if not resource_id_or_uri: raise HPOneViewValueError(RESOURCE_ID_OR_URI_REQUIRED) resource_uri = self.build_uri(resource_id_or_uri) uri = "{}/{}/{}".format(resource_uri, subresource_path, str(subresource_id_or_uri or '')) uri = uri.replace("//", "/") if uri.endswith("/"): uri = uri[:-1] return uri def download(self, uri, file_path): """ Downloads the contents of the requested URI to a stream. Args: uri: URI file_path: File path destination Returns: bool: Indicates if the file was successfully downloaded. """ with open(file_path, 'wb') as file: return self._connection.download_to_stream(file, uri) def __validate_resource_uri(self, path): if self._uri not in path: logger.exception('Get by uri : unrecognized uri: (%s)' % path) raise HPOneViewUnknownType(UNRECOGNIZED_URI) def __make_query_filter(self, filters): if isinstance(filters, list): formated_filter = "&filter=".join(quote(f) for f in filters) else: formated_filter = quote(filters) return "&filter=" + formated_filter def __get_members(self, mlist): if mlist and 'members' in mlist: return mlist['members'] else: return [] def __do_post(self, uri, resource, timeout, custom_headers): task, entity = self._connection.post(uri, resource, custom_headers=custom_headers) if not task: return entity return self._task_monitor.wait_for_task(task, timeout) def __do_put(self, uri, resource, timeout, custom_headers): task, body = self._connection.put(uri, resource, custom_headers=custom_headers) if not task: return body return self._task_monitor.wait_for_task(task, timeout) def __do_requests_to_getall(self, uri, requested_count): items = [] while uri: logger.debug('Making HTTP request to get all resources. Uri: {0}'.format(uri)) response = self._connection.get(uri) members = self.__get_members(response) items += members logger.debug("Response getAll: nextPageUri = {0}, members list length: {1}".format(uri, str(len(members)))) uri = self.__get_next_page(response, items, requested_count) logger.debug('Total # of members found = {0}'.format(str(len(items)))) return items def __get_next_page(self, response, items, requested_count): next_page_is_empty = response.get('nextPageUri') is None has_different_next_page = not response.get('uri') == response.get('nextPageUri') has_next_page = not next_page_is_empty and has_different_next_page if len(items) >= requested_count and requested_count != -1: return None return response.get('nextPageUri') if has_next_page else None def merge_default_values(self, resource, default_values): if not default_values: return resource merged_resource = None if not isinstance(resource, list): api_version = str(self._connection._apiVersion) data = default_values.get(api_version, {}).copy() merged_resource = merge_resources(data, resource) return merged_resource or resource
class ResourceClient(object): """ This class implements common functions for HpOneView API rest """ def __init__(self, con, uri): self._connection = con self._uri = uri self._task_monitor = TaskMonitor(con) def get_all(self, start=0, count=-1, filter='', query='', sort='', view='', fields='', uri=None): """ Gets all items according with the given arguments. More than one request can be send to get the items, regardless the query parameter 'count', since the actual number of items in the response may differ from the requested count. Some types of resource has a limited number of items returned on each call. For those resources, additional calls are made to the API to retrieve any other items matching the given filter. The actual number of items can also diverge from the requested call if the requested number of items would take too long. The use of optional parameters for OneView 2.0 is described at: http://h17007.www1.hpe.com/docs/enterprise/servers/oneview2.0/cic-api/en/api-docs/current/index.html NOTE: Single quote - "'" - inside a query parameter is not supported by OneView API. Args: start: The first item to return, using 0-based indexing. If not specified, the default is 0 - start with the first available item. count: The number of resources to return. A count of -1 requests all the items (default). filter: A general filter/query string to narrow the list of items returned. The default is no filter - all resources are returned. query: A single query parameter can do what would take multiple parameters or multiple GET requests using filter. Use query for more complex queries. NOTE: This parameter is experimental for OneView 2.0. sort: The sort order of the returned data set. By default, the sort order is based on create time, with the oldest entry first. view: Returns a specific subset of the attributes of the resource or collection by specifying the name of a predefined view. The default view is expand (show all attributes of the resource, and all elements of collections or resources). fields: Nome of the fields. uri: A specific URI (optional) Returns: list: A list of items matching the specified filter. """ if filter: filter = "&filter=" + quote(filter) if query: query = "&query=" + quote(query) if sort: sort = "&sort=" + quote(sort) if view: view = "&view=" + quote(view) if fields: fields = "&fields=" + quote(fields) path = uri if uri else self._uri self.__validate_resource_uri(path) uri = "{0}?start={1}&count={2}{3}{4}{5}{6}{7}".format(path, start, count, filter, query, sort, view, fields) logger.debug('Getting all resources with uri: {0}'.format(uri)) result = self.__do_requests_to_getall(uri, count) return result def delete(self, resource, force=False, timeout=-1, custom_headers=None): if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) if isinstance(resource, dict): if 'uri' in resource and resource['uri']: uri = resource['uri'] else: logger.exception(RESOURCE_CLIENT_UNKNOWN_OBJECT_TYPE) raise HPOneViewUnknownType(RESOURCE_CLIENT_UNKNOWN_OBJECT_TYPE) else: uri = self._uri + "/" + resource if force: uri += '?force=True' logger.debug("Delete resource (uri = %s, resource = %s)" % (self._uri, str(resource))) task, body = self._connection.delete(uri, custom_headers=custom_headers) if not task: # 204 NO CONTENT # Successful return from a synchronous delete operation. return True task = self._task_monitor.wait_for_task(task, timeout=timeout) return task def get_schema(self): logger.debug('Get schema (uri = %s, resource = %s)' % (self._uri, self._uri)) return self._connection.get(self._uri + '/schema') def get(self, id_or_uri): """ Args: id_or_uri: Could be either the resource id or the resource uri Returns: The requested resource """ uri = self.build_uri(id_or_uri) logger.debug('Get resource (uri = %s, ID = %s)' % (uri, str(id_or_uri))) return self._connection.get(uri) def get_collection(self, id_or_uri, filter=''): """ Retrieves a collection of resources. Use this function when the 'start' and 'count' parameters are not allowed in the GET call. Otherwise, use get_all instead. Optional filtering criteria may be specified. Args: id_or_uri: Could be either the resource id or the resource uri. filter: General filter/query string. Returns: Collection of the requested resource. """ if filter: filter = "?filter=" + quote(filter) uri = "{uri}{filter}".format(uri=self.build_uri(id_or_uri), filter=filter) logger.debug('Get resource collection (uri = %s)' % uri) response = self._connection.get(uri) return self.__get_members(response) def update_with_zero_body(self, uri, timeout=-1, custom_headers=None): """ Makes a PUT request to update a resource, when no request body is required. Args: uri: Could be either the resource id or the resource uri. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Updated resource. """ logger.debug('Update with zero length body (uri = %s)' % uri) return self.__do_put(uri, None, timeout, custom_headers) def update(self, resource, uri=None, force=False, timeout=-1, custom_headers=None): """ Makes a PUT request to update a resource, when a request body is required. Args: uri: Could be either the resource id or the resource uri. force: If set to true the operation completes despite any problems with network connectivity or errors on the resource itself. The default is false. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Updated resource. """ if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) logger.debug('Update async (uri = %s, resource = %s)' % (self._uri, str(resource))) if not uri: uri = resource['uri'] if force: uri += '?force=True' return self.__do_put(uri, resource, timeout, custom_headers) def create_with_zero_body(self, uri=None, timeout=-1, custom_headers=None): """ Makes a POST request to create a resource, when no request body is required. Args: uri: Could be either the resource id or the resource uri. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Created resource. """ if not uri: uri = self._uri logger.debug('Create with zero body (uri = %s)' % uri) return self.__do_post(uri, None, timeout, custom_headers) def create(self, resource, uri=None, timeout=-1, custom_headers=None): """ Makes a POST request to create a resource, when a request body is required. Args: uri: Could be either the resource id or the resource uri. timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. custom_headers: Allows set specific HTTP headers. Returns: Created resource. """ if not resource: logger.exception(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) raise ValueError(RESOURCE_CLIENT_RESOURCE_WAS_NOT_PROVIDED) if not uri: uri = self._uri logger.debug('Create (uri = %s, resource = %s)' % (uri, str(resource))) return self.__do_post(uri, resource, timeout, custom_headers) def patch(self, id_or_uri, operation, path, value, timeout=-1, custom_headers=None): """ Uses the PATCH to update a resource. Only one operation can be performed in each PATCH call. Args: id_or_uri: Could be either the resource id or the resource uri operation: Patch operation path: Path value: Value timeout: Timeout in seconds. Wait task completion by default. The timeout does not abort the operation in OneView, just stops waiting for its completion. Returns: Updated resource. """ uri = self.build_uri(id_or_uri) logger.debug('Patch resource (uri = %s, op = %s, path = %s, value = %s)' % ( uri, operation, path, value)) patch_request = [{'op': operation, 'path': path, 'value': value}] task, entity = self._connection.patch(uri, patch_request, custom_headers=custom_headers) if not task: return entity return self._task_monitor.wait_for_task(task, timeout) def get_by(self, field, value, uri=None): """ This function uses get_all passing a filter The search is case insensitive Args: field: field name to filter value: value to filter uri: resource uri Returns: dict """ if not field: logger.exception(RESOURCE_CLIENT_INVALID_FIELD) raise ValueError(RESOURCE_CLIENT_INVALID_FIELD) if not uri: uri = self._uri self.__validate_resource_uri(uri) logger.debug('Get by (uri = %s, field = %s, value = %s)' % (uri, field, str(value))) filter = "\"'{0}'='{1}'\"".format(field, value) return self.get_all(filter=filter, uri=uri) def get_by_name(self, name): """ Retrieve a resource by his name Args: name: resource name Returns: dict """ result = self.get_by('name', name) if not result: return None else: return result[0] def get_utilization(self, id_or_uri, fields=None, filter=None, refresh=False, view=None): """ Retrieves historical utilization data for the specified resource, metrics, and time span. Args: id_or_uri: resource identification fields: Name of the supported metric(s) to be retrieved in the format METRIC[,METRIC]... If unspecified, all metrics supported are returned. filter: Filters should be in the format FILTER_NAME=VALUE[,FILTER_NAME=VALUE]... E.g.: 'startDate=2016-05-30T11:20:44.541Z,endDate=2016-05-30T19:20:44.541Z' startDate Start date of requested starting time range in ISO 8601 format. If omitted, the startDate is determined by the endDate minus 24 hours. endDate End date of requested starting time range in ISO 8601 format. When omitted the endDate includes the latest data sample available. If an excessive number of samples would otherwise be returned, the results will be segmented. The caller is responsible for comparing the returned sliceStartTime with the requested startTime in the response. If the sliceStartTime is greater than the oldestSampleTime and the requested start time, the caller is responsible for repeating the request with endTime set to sliceStartTime to obtain the next segment. This process is repeated until the full data set is retrieved. If the resource has no data, the UtilizationData is still returned, but will contain no samples and sliceStartTime/sliceEndTime will be equal. oldestSampleTime/newestSampleTime will still be set appropriately (null if no data is available). If the filter just does not happen to overlap the data that a resource does have, then the metric history service will return null sample values for any missing samples. refresh: Specifies that if necessary an additional request will be queued to obtain the most recent utilization data from the iLO. The response will not include any refreshed data. To track the availability of the newly collected data, monitor the TaskResource identified by the refreshTaskUri property in the response. If null, no refresh was queued. view: Specifies the resolution interval length of the samples to be retrieved. This is reflected in the resolution in the returned response. Utilization data is automatically purged to stay within storage space constraints. Supported views are listed below. native Resolution of the samples returned will be one sample for each 5-minute time period. This is the default view and matches the resolution of the data returned by the iLO. Samples at this resolution are retained up to one year. hour Resolution of the samples returned will be one sample for each 60-minute time period. Samples are calculated by averaging the available 5-minute data samples that occurred within the hour, except for PeakPower which is calculated by reporting the peak observed 5-minute sample value data during the hour. Samples at this resolution are retained up to three years. day Resolution of the samples returned will be one sample for each 24-hour time period. One day is a 24-hour period that starts at midnight GMT regardless of the time zone in which the appliance or client is located. Samples are calculated by averaging the available 5-minute data samples that occurred during the day, except for PeakPower which is calculated by reporting the peak observed 5-minute sample value data during the day. Samples at this resolution are retained up to three years. Returns: dict """ if not id_or_uri: raise ValueError(RESOURCE_CLIENT_INVALID_ID) query = '' if filter: query += self.__make_query_filter(filter) if fields: query += "&fields=" + quote(fields) if refresh: query += "&refresh=true" if view: query += "&view=" + quote(view) if query: query = "?" + query[1:] uri = "{0}/utilization{1}".format(self.build_uri(id_or_uri), query) return self._connection.get(uri) def build_uri(self, id_or_uri): if not id_or_uri: logger.exception(RESOURCE_CLIENT_INVALID_ID) raise ValueError(RESOURCE_CLIENT_INVALID_ID) if "/" in id_or_uri: self.__validate_resource_uri(id_or_uri) return id_or_uri else: return self._uri + "/" + id_or_uri def __validate_resource_uri(self, path): if self._uri not in path: logger.exception('Get by uri : unrecognized uri: (%s)' % path) raise HPOneViewUnknownType(UNRECOGNIZED_URI) def __make_query_filter(self, filter): filters = filter.split(",") formated_filter = "&filter=".join(quote(f) for f in filters) return "&filter=" + formated_filter def __get_members(self, mlist): if mlist and 'members' in mlist: return mlist['members'] else: return [] def __do_post(self, uri, resource, timeout, custom_headers): task, entity = self._connection.post(uri, resource, custom_headers=custom_headers) if not task: return entity return self._task_monitor.wait_for_task(task, timeout) def __do_put(self, uri, resource, timeout, custom_headers): task, body = self._connection.put(uri, resource, custom_headers=custom_headers) if not task: return body return self._task_monitor.wait_for_task(task, timeout) def __do_requests_to_getall(self, uri, count): items = [] request_needed = True while request_needed: logger.debug('Making HTTP request to get all resources. Uri: {0}'.format(uri)) response = self._connection.get(uri) members = self.__get_members(response) uri = response.get('nextPageUri') items += members logger.debug("Response getAll: nextPageUri = {0}, members list length: {1}".format(uri, str(len(members)))) request_needed = uri and not len(members) == 0 and (len(items) < count or count == -1) logger.debug('Total # of members found = {0}'.format(str(len(items)))) return items
class TaskMonitorTest(unittest.TestCase): URI = "/rest/testuri" def setUp(self): super(TaskMonitorTest, self).setUp() self.host = '127.0.0.1' self.connection = connection(self.host) self.task_monitor = TaskMonitor(self.connection) @mock.patch.object(connection, 'get') def test_get_associated_resource_with_task(self, mock_get): task = { "category": "tasks", "type": "TaskResourceV2", "associatedResource": { "resourceUri": "/rest/associatedresourceuri" } } mock_get.return_value = {"resource": "resource1"} ret_task, entity = self.task_monitor.get_associated_resource( task.copy()) self.assertEqual(entity, {"resource": "resource1"}) self.assertEqual(ret_task, task) mock_get.assert_called_once_with("/rest/associatedresourceuri") @mock.patch.object(connection, 'get') def test_get_associated_resource_with_backup(self, mock_get): backup = { "category": "backups", "type": "BACKUP", "taskUri": "/rest/taskuri", } task = { "category": "TaskResourceV2", "type": "tasks", "uri": "/rest/justuri", } def inner_get(uri): if uri == "/rest/taskuri": return task.copy() else: return {"resource": "resource1"} mock_get.side_effect = inner_get mock_get.return_value = task.copy() ret_task, entity = self.task_monitor.get_associated_resource( backup.copy()) self.assertEqual(entity, {"resource": "resource1"}) self.assertEqual(ret_task, task) def test_get_associated_resource_support_dump(self): task = { "category": "tasks", "type": "TaskResourceV2", "associatedResource": { "resourceUri": "/rest/appliance/support-dumps/hennig59.eco-MyDump16-E-2016_07_07-17_53_42.867287.sdmp" } } ret_task, entity = self.task_monitor.get_associated_resource( task.copy()) self.assertEqual( entity, "/rest/appliance/support-dumps/hennig59.eco-MyDump16-E-2016_07_07-17_53_42.867287.sdmp" ) self.assertEqual(ret_task, task) def test_get_associated_resource_with_task_empty(self): try: self.task_monitor.get_associated_resource({}) except HPOneViewUnknownType as e: self.assertEqual(MSG_INVALID_TASK, e.msg) else: self.fail() def test_get_associated_resource_with_invalid_task(self): try: self.task_monitor.get_associated_resource( {"category": "networking"}) except HPOneViewUnknownType as e: self.assertEqual(MSG_UNKNOWN_OBJECT_TYPE, e.msg) else: self.fail() def test_get_associated_resource_with_invalid_type(self): try: self.task_monitor.get_associated_resource({ "category": "tasks", "type": "TaskResource" }) except HPOneViewInvalidResource as e: self.assertEqual(MSG_TASK_TYPE_UNRECONIZED % "TaskResource", e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'get') def test_is_task_running(self, mock_get): mock_get.return_value = {"uri": "uri", "taskState": "Pending"} self.assertTrue(self.task_monitor.is_task_running({"uri": "uri"})) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_false(self, mock_get): mock_get.return_value = {"uri": "uri", "taskState": "Warning"} self.assertFalse(self.task_monitor.is_task_running({"uri": "uri"})) @mock.patch.object(TaskMonitor, 'is_task_running') def test_wait_for_task_timeout(self, mock_is_running): mock_is_running.return_value = True timeout = 2 try: self.task_monitor.wait_for_task({"uri": "uri"}, timeout) except HPOneViewTimeout as e: self.assertEqual(MSG_TIMEOUT % timeout, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch('time.sleep') def test_wait_for_task_increasing_sleep(self, mock_sleep, mock_is_running): mock_is_running.return_value = True timeout = 0.1 # should call sleep increasing 1 until 10 calls = [ call(1), call(2), call(3), call(4), call(5), call(6), call(7), call(8), call(9), call(10), call(10), call(10) ] try: self.task_monitor.wait_for_task({"uri": "uri"}, timeout) except HPOneViewTimeout as e: mock_sleep.assert_has_calls(calls) self.assertEqual(MSG_TIMEOUT % timeout, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_message(self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", "taskErrors": [{ "message": "Error Message" }] } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Error Message", e.msg) self.assertEqual(None, e.error_code) else: self.fail("Expected exception not raised") @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_message_and_error_code( self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", "taskErrors": [{ "message": "Error Message", "errorCode": "ProfileAlreadyExistsInServer" }] } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Error Message", e.msg) self.assertEqual("ProfileAlreadyExistsInServer", e.error_code) else: self.fail("Expected exception not raised") def test_wait_for_task_empty(self): try: self.task_monitor.wait_for_task({}) except HPOneViewUnknownType as e: self.assertEqual(MSG_INVALID_TASK, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_empty(self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", "taskStatus": "Failed", } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Failed", e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_unknown(self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual(MSG_UNKNOWN_EXCEPTION, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task(self, mock_get, mock_is_running, mock_assoc_res): task = { "uri": "uri", "type": "TaskResourceV2", "name": "update", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret_entity = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(ret_entity, {"resource": "resource1"}) @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_unexpected_result(self, mock_get, mock_is_running): task = { "uri": "uri", "type": "Undefined", "name": "Undefined", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task ret_entity = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(ret_entity, task.copy()) @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_delete(self, mock_get, mock_is_running, mock_assoc_res): task = { "uri": "uri", "type": "TaskResourceV2", "name": "Delete", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret = self.task_monitor.wait_for_task(task.copy()) # may return a different type self.assertEqual(True, ret) @mock.patch.object(connection, 'get') def test_get(self, mock_get): self.task_monitor.get({"uri": "an uri"}) mock_get.assert_called_once_with("an uri") @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_get_completed_task(self, mock_get, mock_is_running): task = { "uri": "uri", "type": "TaskResourceV2", "name": "Create unexpected zoning report'", "taskState": "Completed", "taskOutput": [] } mock_is_running.return_value = False mock_get.return_value = task response = self.task_monitor.get_completed_task(task.copy()) self.assertEqual(task, response)
def setUp(self): super(TaskMonitorTest, self).setUp() self.host = '127.0.0.1' self.connection = connection(self.host) self.task_monitor = TaskMonitor(self.connection)
def __init__(self, con): self._client = ResourceClient(con, self.URI) self._task_monitor = TaskMonitor(con) self.__default_values = { 'type': 'GoldenImage', }
def monitor_profile_update(oneview_client, task): task_monitor = TaskMonitor(oneview_client.connection) # Flag that sets if atleast one task is in running state running_flag = True # Create a toolbar to monitor creation of profiles toolbar_width = 100 # setup toolbar sys.stdout.write("\n\t\t\t\t[%s]" % (" " * toolbar_width)) sys.stdout.flush() sys.stdout.write("\b" * (toolbar_width + 1)) # return to start of line, after '[' prevPercentComplete = 0 while running_flag: running_flag = False percentComplete = 0 runningCount = 0 if task_monitor.is_task_running(task): # Set the flag if atleast one task is running running_flag = True # Get the percent completed percentComplete += task_monitor.get(task)['percentComplete'] runningCount += 1 if runningCount > 0: percentComplete = percentComplete / runningCount else: percentComplete = 100 percentDiff = percentComplete - prevPercentComplete prevPercentComplete = percentComplete # Update toolbar print("#" * int(percentDiff), end='') sys.stdout.flush() #print("percentComplete : {} %".format(percentComplete)) sleep(10) sys.stdout.write("]\n") sys.stdout.flush() TASK_COMPLETED_STATES = ['Warning', 'Completed'] TASK_ERROR_STATES = ['Error', 'Terminated', 'Killed'] task = task_monitor.get(task) profile_name = task['associatedResource']['resourceName'] if task['taskState'] in TASK_ERROR_STATES: msg = None error_code = None if 'taskErrors' in task and len(task['taskErrors']) > 0: err = task['taskErrors'][0] if 'message' in err: msg = err['message'] error_code = err.get('errorCode') logging.info( "\nFailed to update server profile - \"{}\".\n\tError msg: {}". format(profile_name, msg)) raise Exception( "\nFailed to update server profile - \"{}\".\n\tError msg: {}". format(profile_name, msg))
class TaskMonitorTest(unittest.TestCase): URI = "/rest/testuri" def setUp(self): super(TaskMonitorTest, self).setUp() self.host = '127.0.0.1' self.connection = connection(self.host) self.task_monitor = TaskMonitor(self.connection) @mock.patch.object(connection, 'get') def test_get_associated_resource_with_task(self, mock_get): task = { "category": "tasks", "type": "TaskResourceV2", "associatedResource": { "resourceUri": "/rest/associatedresourceuri" }} mock_get.return_value = {"resource": "resource1"} ret_task, entity = self.task_monitor.get_associated_resource(task.copy()) self.assertEqual(entity, {"resource": "resource1"}) self.assertEqual(ret_task, task) mock_get.assert_called_once_with("/rest/associatedresourceuri") @mock.patch.object(connection, 'get') def test_get_associated_resource_with_backup(self, mock_get): backup = { "category": "backups", "type": "BACKUP", "taskUri": "/rest/taskuri", } task = { "category": "TaskResourceV2", "type": "tasks", "uri": "/rest/justuri", } def inner_get(uri): if uri == "/rest/taskuri": return task.copy() else: return {"resource": "resource1"} mock_get.side_effect = inner_get mock_get.return_value = task.copy() ret_task, entity = self.task_monitor.get_associated_resource(backup.copy()) self.assertEqual(entity, {"resource": "resource1"}) self.assertEqual(ret_task, task) def test_get_associated_resource_support_dump(self): task = { "category": "tasks", "type": "TaskResourceV2", "associatedResource": { "resourceUri": "/rest/appliance/support-dumps/hennig59.eco-MyDump16-E-2016_07_07-17_53_42.867287.sdmp" }} ret_task, entity = self.task_monitor.get_associated_resource(task.copy()) self.assertEqual( entity, "/rest/appliance/support-dumps/hennig59.eco-MyDump16-E-2016_07_07-17_53_42.867287.sdmp") self.assertEqual(ret_task, task) def test_get_associated_resource_with_task_empty(self): try: self.task_monitor.get_associated_resource({}) except HPOneViewUnknownType as e: self.assertEqual(MSG_INVALID_TASK, e.msg) else: self.fail() def test_get_associated_resource_with_invalid_task(self): try: self.task_monitor.get_associated_resource({"category": "networking"}) except HPOneViewUnknownType as e: self.assertEqual(MSG_UNKNOWN_OBJECT_TYPE, e.msg) else: self.fail() def test_get_associated_resource_with_invalid_type(self): try: self.task_monitor.get_associated_resource({"category": "tasks", "type": "TaskResource"}) except HPOneViewInvalidResource as e: self.assertEqual(MSG_TASK_TYPE_UNRECONIZED % "TaskResource", e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'get') def test_is_task_running(self, mock_get): mock_get.return_value = {"uri": "uri", "taskState": "Pending"} self.assertTrue(self.task_monitor.is_task_running({"uri": "uri"})) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_false(self, mock_get): mock_get.return_value = {"uri": "uri", "taskState": "Warning"} self.assertFalse(self.task_monitor.is_task_running({"uri": "uri"})) @mock.patch.object(TaskMonitor, 'is_task_running') def test_wait_for_task_timeout(self, mock_is_running): mock_is_running.return_value = True timeout = 2 try: self.task_monitor.wait_for_task({"uri": "uri"}, timeout) except HPOneViewTimeout as e: self.assertEqual(MSG_TIMEOUT % timeout, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch('time.sleep') def test_wait_for_task_increasing_sleep(self, mock_sleep, mock_is_running): mock_is_running.return_value = True timeout = 0.1 # should call sleep increasing 1 until 10 calls = [call(1), call(2), call(3), call(4), call(5), call(6), call(7), call(8), call(9), call(10), call(10), call(10)] try: self.task_monitor.wait_for_task({"uri": "uri"}, timeout) except HPOneViewTimeout as e: mock_sleep.assert_has_calls(calls) self.assertEqual(MSG_TIMEOUT % timeout, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_message(self, mock_get, mock_is_running): task = {"uri": "uri", "taskState": "Error", "taskErrors": [{"message": "Error Message"}]} mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Error Message", e.msg) else: self.fail() def test_wait_for_task_empty(self): try: self.task_monitor.wait_for_task({}) except HPOneViewUnknownType as e: self.assertEqual(MSG_INVALID_TASK, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_empty(self, mock_get, mock_is_running): task = {"uri": "uri", "taskState": "Error", "taskStatus": "Failed", } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Failed", e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_unknown(self, mock_get, mock_is_running): task = {"uri": "uri", "taskState": "Error", } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual(MSG_UNKNOWN_EXCEPTION, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task(self, mock_get, mock_is_running, mock_assoc_res): task = {"uri": "uri", "type": "TaskResourceV2", "name": "update", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret_entity = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(ret_entity, {"resource": "resource1"}) @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_unexpected_result(self, mock_get, mock_is_running): task = {"uri": "uri", "type": "Undefined", "name": "Undefined", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task ret_entity = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(ret_entity, task.copy()) @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_delete(self, mock_get, mock_is_running, mock_assoc_res): task = {"uri": "uri", "type": "TaskResourceV2", "name": "Delete", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret = self.task_monitor.wait_for_task(task.copy()) # may return a different type self.assertEqual(True, ret) @mock.patch.object(connection, 'get') def test_get(self, mock_get): self.task_monitor.get({"uri": "an uri"}) mock_get.assert_called_once_with("an uri") @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_get_completed_task(self, mock_get, mock_is_running): task = {"uri": "uri", "type": "TaskResourceV2", "name": "Create unexpected zoning report'", "taskState": "Completed", "taskOutput": [] } mock_is_running.return_value = False mock_get.return_value = task response = self.task_monitor.get_completed_task(task.copy()) self.assertEqual(task, response)
class TaskMonitorTest(unittest.TestCase): def setUp(self): super(TaskMonitorTest, self).setUp() self.host = '127.0.0.1' self.connection = connection(self.host) self.task_monitor = TaskMonitor(self.connection) @mock.patch.object(connection, 'get') def test_get_associated_resource_with_task(self, mock_get): task = { "category": "tasks", "type": "TaskResourceV2", "associatedResource": { "resourceUri": "/rest/associatedresourceuri" } } mock_get.return_value = {"resource": "resource1"} ret_task, entity = self.task_monitor.get_associated_resource( task.copy()) self.assertEqual(entity, {"resource": "resource1"}) self.assertEqual(ret_task, task) mock_get.assert_called_once_with("/rest/associatedresourceuri") @mock.patch.object(connection, 'get') def test_get_associated_resource_with_backup(self, mock_get): backup = { "category": "backups", "type": "BACKUP", "taskUri": "/rest/taskuri", } task = { "category": "TaskResourceV2", "type": "tasks", "uri": "/rest/justuri", } def inner_get(uri): if uri == "/rest/taskuri": return task.copy() else: return {"resource": "resource1"} mock_get.side_effect = inner_get mock_get.return_value = task.copy() ret_task, entity = self.task_monitor.get_associated_resource( backup.copy()) self.assertEqual(entity, {"resource": "resource1"}) self.assertEqual(ret_task, task) def test_get_associated_resource_support_dump(self): task = { "category": "tasks", "type": "TaskResourceV2", "associatedResource": { "resourceUri": "/rest/appliance/support-dumps/hennig59.eco-MyDump16-E-2016_07_07-17_53_42.867287.sdmp" } } ret_task, entity = self.task_monitor.get_associated_resource( task.copy()) self.assertEqual( entity, "/rest/appliance/support-dumps/hennig59.eco-MyDump16-E-2016_07_07-17_53_42.867287.sdmp" ) self.assertEqual(ret_task, task) def test_get_associated_resource_with_task_empty(self): try: self.task_monitor.get_associated_resource({}) except HPOneViewUnknownType as e: self.assertEqual(MSG_INVALID_TASK, e.msg) else: self.fail() def test_get_associated_resource_with_invalid_task(self): try: self.task_monitor.get_associated_resource( {"category": "networking"}) except HPOneViewUnknownType as e: self.assertEqual(MSG_UNKNOWN_OBJECT_TYPE, e.msg) else: self.fail() def test_get_associated_resource_with_invalid_type(self): try: self.task_monitor.get_associated_resource({ "category": "tasks", "type": "TaskResource" }) except HPOneViewInvalidResource as e: self.assertEqual(MSG_TASK_TYPE_UNRECONIZED % "TaskResource", e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'get') def test_is_task_running(self, mock_get): mock_get.return_value = {"uri": "uri", "taskState": "Pending"} self.assertTrue(self.task_monitor.is_task_running({"uri": "uri"})) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_false(self, mock_get): mock_get.return_value = {"uri": "uri", "taskState": "Warning"} self.assertFalse(self.task_monitor.is_task_running({"uri": "uri"})) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_ignore_network_failure(self, mock_get): mock_get.side_effect = [{ "uri": "uri", "taskState": "Pending" }, EnvironmentError(ETIMEDOUT, ERR_MSG)] connection_failure_control = dict( last_success=self.task_monitor.get_current_seconds()) # 1. Success get self.assertTrue( self.task_monitor.is_task_running({"uri": "uri"}, connection_failure_control)) # 2. Timeout error, expected True anyway self.assertTrue( self.task_monitor.is_task_running({"uri": "uri"}, connection_failure_control)) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_network_failure_without_timeout_control( self, mock_get): mock_get.side_effect = EnvironmentError(ETIMEDOUT, ERR_MSG) self.assertRaises(EnvironmentError, self.task_monitor.is_task_running, {"uri": "uri"}) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_generic_failure_with_timeout_control( self, mock_get): mock_get.side_effect = Exception(ERR_MSG) connection_failure_control = dict( last_success=self.task_monitor.get_current_seconds()) self.assertRaises(Exception, self.task_monitor.is_task_running, {"uri": "uri"}, connection_failure_control) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_ignore_network_failure_reset_count( self, mock_get): mock_get.side_effect = [{ "uri": "uri", "taskState": "Pending" }, EnvironmentError(ECONNABORTED, ERR_MSG), { "uri": "uri", "taskState": "Pending" }, EnvironmentError(ETIMEDOUT, ERR_MSG)] connection_failure_control = dict( last_success=self.task_monitor.get_current_seconds()) # 1. Success get self.assertTrue( self.task_monitor.is_task_running({"uri": "uri"}, connection_failure_control)) # 2. Inside the timeout, must continue self.assertTrue( self.task_monitor.is_task_running({"uri": "uri"}, connection_failure_control)) # Force exceed the timeout seconds_to_decrement = TaskMonitor.CONNECTION_FAILURE_TIMEOUT + 10 connection_failure_control['last_success'] -= seconds_to_decrement # 3. Success get (reset timeout) self.assertTrue( self.task_monitor.is_task_running({"uri": "uri"}, connection_failure_control)) # 4. Inside the timeout again, must continue self.assertTrue( self.task_monitor.is_task_running({"uri": "uri"}, connection_failure_control)) @mock.patch.object(TaskMonitor, 'get') def test_is_task_running_ignore_network_failure_exceed_timeout( self, mock_get): mock_get.side_effect = [{ "uri": "uri", "taskState": "Pending" }, EnvironmentError(ECONNABORTED, ERR_MSG)] conn_failure_control = dict( last_success=self.task_monitor.get_current_seconds()) # 1. Success get self.assertTrue( self.task_monitor.is_task_running({"uri": "uri"}, conn_failure_control)) # Decrement last success to force exceed the timeout seconds_to_decrement = TaskMonitor.CONNECTION_FAILURE_TIMEOUT + 10 conn_failure_control['last_success'] -= seconds_to_decrement # 2. Should fail, timeout exceeded self.assertRaises(EnvironmentError, self.task_monitor.is_task_running, {"uri": "uri"}, conn_failure_control) @mock.patch.object(TaskMonitor, 'is_task_running') def test_wait_for_task_timeout(self, mock_is_running): mock_is_running.return_value = True timeout = 2 try: self.task_monitor.wait_for_task({"uri": "uri"}, timeout) except HPOneViewTimeout as e: self.assertEqual(MSG_TIMEOUT % timeout, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch('time.sleep') def test_wait_for_task_increasing_sleep(self, mock_sleep, mock_is_running): mock_is_running.return_value = True timeout = 0.1 # should call sleep increasing 1 until 10 calls = [ call(1), call(2), call(3), call(4), call(5), call(6), call(7), call(8), call(9), call(10), call(10), call(10) ] try: self.task_monitor.wait_for_task({"uri": "uri"}, timeout) except HPOneViewTimeout as e: mock_sleep.assert_has_calls(calls) self.assertEqual(MSG_TIMEOUT % timeout, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_message(self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", "taskErrors": [{ "message": "Error Message" }] } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Error Message", e.msg) self.assertEqual(None, e.error_code) else: self.fail("Expected exception not raised") @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_message_and_error_code( self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", "taskErrors": [{ "message": "Error Message", "errorCode": "ProfileAlreadyExistsInServer" }] } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Error Message", e.msg) self.assertEqual("ProfileAlreadyExistsInServer", e.error_code) else: self.fail("Expected exception not raised") def test_wait_for_task_empty(self): try: self.task_monitor.wait_for_task({}) except HPOneViewUnknownType as e: self.assertEqual(MSG_INVALID_TASK, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_empty(self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", "taskStatus": "Failed", } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual("Failed", e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_with_error_unknown(self, mock_get, mock_is_running): task = { "uri": "uri", "taskState": "Error", } mock_is_running.return_value = False mock_get.return_value = task try: self.task_monitor.wait_for_task(task.copy()) except HPOneViewTaskError as e: self.assertEqual(MSG_UNKNOWN_EXCEPTION, e.msg) else: self.fail() @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task(self, mock_get, mock_is_running, mock_assoc_res): task = { "uri": "uri", "type": "TaskResourceV2", "name": "update", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret_entity = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(ret_entity, {"resource": "resource1"}) @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_unexpected_result(self, mock_get, mock_is_running): task = { "uri": "uri", "type": "Undefined", "name": "Undefined", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task ret_entity = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(ret_entity, task.copy()) @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_delete(self, mock_get, mock_is_running, mock_assoc_res): task = { "uri": "uri", "type": "TaskResourceV2", "name": "Delete", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret = self.task_monitor.wait_for_task(task.copy()) # may return a different type self.assertEqual(True, ret) @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_remove(self, mock_get, mock_is_running, mock_assoc_res): task = { "uri": "uri", "type": "TaskResourceV2", "name": "Remove", "taskState": "Removed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(True, ret) @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_remove_san_manager(self, mock_get, mock_is_running, mock_assoc_res): task = { "uri": "uri", "type": "TaskResourceV2", "name": "Remove SAN manager", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(True, ret) @mock.patch.object(TaskMonitor, 'get_associated_resource') @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_wait_for_task_delete_server_hardware_type(self, mock_get, mock_is_running, mock_assoc_res): task = { "uri": "uri", "type": "TaskResourceV2", "name": "Delete server hardware type", "taskState": "Completed", } mock_is_running.return_value = False mock_get.return_value = task mock_assoc_res.return_value = task.copy(), {"resource": "resource1"} ret = self.task_monitor.wait_for_task(task.copy()) self.assertEqual(True, ret) @mock.patch.object(connection, 'get') def test_get(self, mock_get): self.task_monitor.get({"uri": "an uri"}) mock_get.assert_called_once_with("an uri") @mock.patch.object(TaskMonitor, 'is_task_running') @mock.patch.object(TaskMonitor, 'get') def test_get_completed_task(self, mock_get, mock_is_running): task = { "uri": "uri", "type": "TaskResourceV2", "name": "Create unexpected zoning report'", "taskState": "Completed", "taskOutput": [] } mock_is_running.return_value = False mock_get.return_value = task response = self.task_monitor.get_completed_task(task.copy()) self.assertEqual(task, response)