mirror of
https://github.com/ansible-collections/community.general.git
synced 2024-09-14 20:13:21 +02:00
b32b69742b
* WDC Redfish support for setting the power mode.
* Apply suggestions from code review
Co-authored-by: Felix Fontein <felix@fontein.de>
* Add change fragment.
* Add extension to changelog fragment.
Co-authored-by: Felix Fontein <felix@fontein.de>
(cherry picked from commit 2a449eb163
)
Co-authored-by: Mike Moerk <michael.moerk@wdc.com>
520 lines
23 KiB
Python
520 lines
23 KiB
Python
# -*- coding: utf-8 -*-
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# Copyright (c) 2022 Western Digital Corporation
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# GNU General Public License v3.0+ (see LICENSES/GPL-3.0-or-later.txt or https://www.gnu.org/licenses/gpl-3.0.txt)
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# SPDX-License-Identifier: GPL-3.0-or-later
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from __future__ import absolute_import, division, print_function
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__metaclass__ = type
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import datetime
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import re
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import time
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import tarfile
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from ansible.module_utils.urls import fetch_file
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from ansible_collections.community.general.plugins.module_utils.redfish_utils import RedfishUtils
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from ansible.module_utils.six.moves.urllib.parse import urlparse, urlunparse
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class WdcRedfishUtils(RedfishUtils):
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"""Extension to RedfishUtils to support WDC enclosures."""
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# Status codes returned by WDC FW Update Status
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UPDATE_STATUS_CODE_READY_FOR_FW_UPDATE = 0
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UPDATE_STATUS_CODE_FW_UPDATE_IN_PROGRESS = 1
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UPDATE_STATUS_CODE_FW_UPDATE_COMPLETED_WAITING_FOR_ACTIVATION = 2
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UPDATE_STATUS_CODE_FW_UPDATE_FAILED = 3
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# Status messages returned by WDC FW Update Status
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UPDATE_STATUS_MESSAGE_READY_FOR_FW_UDPATE = "Ready for FW update"
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UDPATE_STATUS_MESSAGE_FW_UPDATE_IN_PROGRESS = "FW update in progress"
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UPDATE_STATUS_MESSAGE_FW_UPDATE_COMPLETED_WAITING_FOR_ACTIVATION = "FW update completed. Waiting for activation."
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UPDATE_STATUS_MESSAGE_FW_UPDATE_FAILED = "FW update failed."
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# Dict keys for resource bodies
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# Standard keys
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ACTIONS = "Actions"
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OEM = "Oem"
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WDC = "WDC"
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TARGET = "target"
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# Keys for specific operations
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CHASSIS_LOCATE = "#Chassis.Locate"
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CHASSIS_POWER_MODE = "#Chassis.PowerMode"
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def __init__(self,
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creds,
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root_uris,
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timeout,
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module,
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resource_id,
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data_modification):
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super(WdcRedfishUtils, self).__init__(creds=creds,
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root_uri=root_uris[0],
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timeout=timeout,
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module=module,
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resource_id=resource_id,
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data_modification=data_modification)
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# Update the root URI if we cannot perform a Redfish GET to the first one
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self._set_root_uri(root_uris)
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def _set_root_uri(self, root_uris):
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"""Set the root URI from a list of options.
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If the current root URI is good, just keep it. Else cycle through our options until we find a good one.
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A URI is considered good if we can GET uri/redfish/v1.
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"""
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for root_uri in root_uris:
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uri = root_uri + "/redfish/v1"
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response = self.get_request(uri)
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if response['ret']:
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self.root_uri = root_uri
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break
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def _find_updateservice_resource(self):
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"""Find the update service resource as well as additional WDC-specific resources."""
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response = super(WdcRedfishUtils, self)._find_updateservice_resource()
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if not response['ret']:
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return response
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return self._find_updateservice_additional_uris()
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def _is_enclosure_multi_tenant(self):
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"""Determine if the enclosure is multi-tenant.
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The serial number of a multi-tenant enclosure will end in "-A" or "-B".
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:return: True/False if the enclosure is multi-tenant or not; None if unable to determine.
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"""
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response = self.get_request(self.root_uri + self.service_root + "Chassis/Enclosure")
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if response['ret'] is False:
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return None
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pattern = r".*-[A,B]"
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data = response['data']
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return re.match(pattern, data['SerialNumber']) is not None
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def _find_updateservice_additional_uris(self):
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"""Find & set WDC-specific update service URIs"""
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response = self.get_request(self.root_uri + self._update_uri())
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if response['ret'] is False:
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return response
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data = response['data']
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if 'Actions' not in data:
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return {'ret': False, 'msg': 'Service does not support SimpleUpdate'}
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if '#UpdateService.SimpleUpdate' not in data['Actions']:
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return {'ret': False, 'msg': 'Service does not support SimpleUpdate'}
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action = data['Actions']['#UpdateService.SimpleUpdate']
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if 'target' not in action:
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return {'ret': False, 'msg': 'Service does not support SimpleUpdate'}
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self.simple_update_uri = action['target']
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# Simple update status URI is not provided via GET /redfish/v1/UpdateService
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# So we have to hard code it.
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self.simple_update_status_uri = "{0}/Status".format(self.simple_update_uri)
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# FWActivate URI
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if 'Oem' not in data['Actions']:
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return {'ret': False, 'msg': 'Service does not support OEM operations'}
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if 'WDC' not in data['Actions']['Oem']:
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return {'ret': False, 'msg': 'Service does not support WDC operations'}
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if '#UpdateService.FWActivate' not in data['Actions']['Oem']['WDC']:
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return {'ret': False, 'msg': 'Service does not support FWActivate'}
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action = data['Actions']['Oem']['WDC']['#UpdateService.FWActivate']
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if 'target' not in action:
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return {'ret': False, 'msg': 'Service does not support FWActivate'}
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self.firmware_activate_uri = action['target']
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return {'ret': True}
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def _simple_update_status_uri(self):
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return self.simple_update_status_uri
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def _firmware_activate_uri(self):
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return self.firmware_activate_uri
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def _update_uri(self):
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return self.update_uri
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def get_simple_update_status(self):
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"""Issue Redfish HTTP GET to return the simple update status"""
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result = {}
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response = self.get_request(self.root_uri + self._simple_update_status_uri())
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if response['ret'] is False:
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return response
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result['ret'] = True
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data = response['data']
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result['entries'] = data
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return result
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def firmware_activate(self, update_opts):
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"""Perform FWActivate using Redfish HTTP API."""
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creds = update_opts.get('update_creds')
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payload = {}
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if creds:
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if creds.get('username'):
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payload["Username"] = creds.get('username')
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if creds.get('password'):
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payload["Password"] = creds.get('password')
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# Make sure the service supports FWActivate
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response = self.get_request(self.root_uri + self._update_uri())
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if response['ret'] is False:
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return response
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data = response['data']
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if 'Actions' not in data:
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return {'ret': False, 'msg': 'Service does not support FWActivate'}
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response = self.post_request(self.root_uri + self._firmware_activate_uri(), payload)
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if response['ret'] is False:
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return response
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return {'ret': True, 'changed': True,
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'msg': "FWActivate requested"}
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def _get_bundle_version(self,
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bundle_uri):
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"""Get the firmware version from a bundle file, and whether or not it is multi-tenant.
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Only supports HTTP at this time. Assumes URI exists and is a tarfile.
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Looks for a file oobm-[version].pkg, such as 'oobm-4.0.13.pkg`. Extracts the version number
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from that filename (in the above example, the version number is "4.0.13".
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To determine if the bundle is multi-tenant or not, it looks inside the .bin file within the tarfile,
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and checks the appropriate byte in the file.
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:param str bundle_uri: HTTP URI of the firmware bundle.
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:return: Firmware version number contained in the bundle, and whether or not the bundle is multi-tenant.
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Either value will be None if unable to deterine.
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:rtype: str or None, bool or None
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"""
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bundle_temp_filename = fetch_file(module=self.module,
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url=bundle_uri)
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if not tarfile.is_tarfile(bundle_temp_filename):
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return None, None
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tf = tarfile.open(bundle_temp_filename)
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pattern_pkg = r"oobm-(.+)\.pkg"
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pattern_bin = r"(.*\.bin)"
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bundle_version = None
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is_multi_tenant = None
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for filename in tf.getnames():
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match_pkg = re.match(pattern_pkg, filename)
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if match_pkg is not None:
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bundle_version = match_pkg.group(1)
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match_bin = re.match(pattern_bin, filename)
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if match_bin is not None:
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bin_filename = match_bin.group(1)
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bin_file = tf.extractfile(bin_filename)
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bin_file.seek(11)
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byte_11 = bin_file.read(1)
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is_multi_tenant = byte_11 == b'\x80'
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return bundle_version, is_multi_tenant
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@staticmethod
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def uri_is_http(uri):
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"""Return True if the specified URI is http or https.
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:param str uri: A URI.
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:return: True if the URI is http or https, else False
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:rtype: bool
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"""
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parsed_bundle_uri = urlparse(uri)
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return parsed_bundle_uri.scheme.lower() in ['http', 'https']
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def update_and_activate(self, update_opts):
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"""Update and activate the firmware in a single action.
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Orchestrates the firmware update so that everything can be done in a single command.
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Compares the update version with the already-installed version -- skips update if they are the same.
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Performs retries, handles timeouts as needed.
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"""
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# Convert credentials to standard HTTP format
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if update_opts.get("update_creds") is not None and "username" in update_opts["update_creds"] and "password" in update_opts["update_creds"]:
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update_creds = update_opts["update_creds"]
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parsed_url = urlparse(update_opts["update_image_uri"])
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if update_creds:
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original_netloc = parsed_url.netloc
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parsed_url = parsed_url._replace(netloc="{0}:{1}@{2}".format(update_creds.get("username"),
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update_creds.get("password"),
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original_netloc))
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update_opts["update_image_uri"] = urlunparse(parsed_url)
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del update_opts["update_creds"]
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# Make sure bundle URI is HTTP(s)
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bundle_uri = update_opts["update_image_uri"]
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if not self.uri_is_http(bundle_uri):
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return {
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'ret': False,
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'msg': 'Bundle URI must be HTTP or HTTPS'
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}
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# Make sure IOM is ready for update
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result = self.get_simple_update_status()
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if result['ret'] is False:
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return result
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update_status = result['entries']
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status_code = update_status['StatusCode']
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status_description = update_status['Description']
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if status_code not in [
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self.UPDATE_STATUS_CODE_READY_FOR_FW_UPDATE,
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self.UPDATE_STATUS_CODE_FW_UPDATE_FAILED
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]:
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return {
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'ret': False,
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'msg': 'Target is not ready for FW update. Current status: {0} ({1})'.format(
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status_code, status_description
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)}
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# Check the FW version in the bundle file, and compare it to what is already on the IOMs
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# Bundle version number
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bundle_firmware_version, is_bundle_multi_tenant = self._get_bundle_version(bundle_uri)
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if bundle_firmware_version is None or is_bundle_multi_tenant is None:
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return {
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'ret': False,
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'msg': 'Unable to extract bundle version or multi-tenant status from update image tarfile'
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}
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# Verify that the bundle is correctly multi-tenant or not
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is_enclosure_multi_tenant = self._is_enclosure_multi_tenant()
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if is_enclosure_multi_tenant != is_bundle_multi_tenant:
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return {
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'ret': False,
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'msg': 'Enclosure multi-tenant is {0} but bundle multi-tenant is {1}'.format(
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is_enclosure_multi_tenant,
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is_bundle_multi_tenant,
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)
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}
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# Version number installed on IOMs
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firmware_inventory = self.get_firmware_inventory()
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if not firmware_inventory["ret"]:
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return firmware_inventory
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firmware_inventory_dict = {}
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for entry in firmware_inventory["entries"]:
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firmware_inventory_dict[entry["Id"]] = entry
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iom_a_firmware_version = firmware_inventory_dict.get("IOModuleA_OOBM", {}).get("Version")
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iom_b_firmware_version = firmware_inventory_dict.get("IOModuleB_OOBM", {}).get("Version")
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# If version is None, we will proceed with the update, because we cannot tell
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# for sure that we have a full version match.
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if is_enclosure_multi_tenant:
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# For multi-tenant, only one of the IOMs will be affected by the firmware update,
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# so see if that IOM already has the same firmware version as the bundle.
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firmware_already_installed = bundle_firmware_version == self._get_installed_firmware_version_of_multi_tenant_system(
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iom_a_firmware_version,
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iom_b_firmware_version)
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else:
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# For single-tenant, see if both IOMs already have the same firmware version as the bundle.
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firmware_already_installed = bundle_firmware_version == iom_a_firmware_version == iom_b_firmware_version
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# If this FW already installed, return changed: False, and do not update the firmware.
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if firmware_already_installed:
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return {
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'ret': True,
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'changed': False,
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'msg': 'Version {0} already installed'.format(bundle_firmware_version)
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}
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# Version numbers don't match the bundle -- proceed with update (unless we are in check mode)
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if self.module.check_mode:
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return {
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'ret': True,
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'changed': True,
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'msg': 'Update not performed in check mode.'
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}
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update_successful = False
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retry_interval_seconds = 5
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max_number_of_retries = 5
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retry_number = 0
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while retry_number < max_number_of_retries and not update_successful:
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if retry_number != 0:
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time.sleep(retry_interval_seconds)
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retry_number += 1
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result = self.simple_update(update_opts)
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if result['ret'] is not True:
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# Sometimes a timeout error is returned even though the update actually was requested.
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# Check the update status to see if the update is in progress.
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status_result = self.get_simple_update_status()
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if status_result['ret'] is False:
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continue
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update_status = status_result['entries']
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status_code = update_status['StatusCode']
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if status_code != self.UPDATE_STATUS_CODE_FW_UPDATE_IN_PROGRESS:
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# Update is not in progress -- retry until max number of retries
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continue
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else:
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update_successful = True
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else:
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update_successful = True
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if not update_successful:
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# Unable to get SimpleUpdate to work. Return the failure from the SimpleUpdate
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return result
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# Wait for "ready to activate"
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max_wait_minutes = 30
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polling_interval_seconds = 30
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status_code = self.UPDATE_STATUS_CODE_READY_FOR_FW_UPDATE
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start_time = datetime.datetime.now()
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# For a short time, target will still say "ready for firmware update" before it transitions
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# to "update in progress"
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status_codes_for_update_incomplete = [
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self.UPDATE_STATUS_CODE_FW_UPDATE_IN_PROGRESS,
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self.UPDATE_STATUS_CODE_READY_FOR_FW_UPDATE
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]
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iteration = 0
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while status_code in status_codes_for_update_incomplete \
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and datetime.datetime.now() - start_time < datetime.timedelta(minutes=max_wait_minutes):
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if iteration != 0:
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time.sleep(polling_interval_seconds)
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iteration += 1
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result = self.get_simple_update_status()
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if result['ret'] is False:
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continue # We may get timeouts, just keep trying until we give up
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update_status = result['entries']
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status_code = update_status['StatusCode']
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status_description = update_status['Description']
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if status_code == self.UPDATE_STATUS_CODE_FW_UPDATE_IN_PROGRESS:
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# Once it says update in progress, "ready for update" is no longer a valid status code
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status_codes_for_update_incomplete = [self.UPDATE_STATUS_CODE_FW_UPDATE_IN_PROGRESS]
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# Update no longer in progress -- verify that it finished
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if status_code != self.UPDATE_STATUS_CODE_FW_UPDATE_COMPLETED_WAITING_FOR_ACTIVATION:
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return {
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'ret': False,
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'msg': 'Target is not ready for FW activation after update. Current status: {0} ({1})'.format(
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status_code, status_description
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)}
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self.firmware_activate(update_opts)
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return {'ret': True, 'changed': True,
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'msg': "Firmware updated and activation initiated."}
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def _get_installed_firmware_version_of_multi_tenant_system(self,
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iom_a_firmware_version,
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iom_b_firmware_version):
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"""Return the version for the active IOM on a multi-tenant system.
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Only call this on a multi-tenant system.
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Given the installed firmware versions for IOM A, B, this method will determine which IOM is active
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for this tenanat, and return that IOM's firmware version.
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"""
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# To determine which IOM we are on, try to GET each IOM resource
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# The one we are on will return valid data.
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# The other will return an error with message "IOM Module A/B cannot be read"
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which_iom_is_this = None
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for iom_letter in ['A', 'B']:
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iom_uri = "Chassis/IOModule{0}FRU".format(iom_letter)
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response = self.get_request(self.root_uri + self.service_root + iom_uri)
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if response['ret'] is False:
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continue
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data = response['data']
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if "Id" in data: # Assume if there is an "Id", it is valid
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which_iom_is_this = iom_letter
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break
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if which_iom_is_this == 'A':
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return iom_a_firmware_version
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elif which_iom_is_this == 'B':
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return iom_b_firmware_version
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else:
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return None
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@staticmethod
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def _get_led_locate_uri(data):
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"""Get the LED locate URI given a resource body."""
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if WdcRedfishUtils.ACTIONS not in data:
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return None
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if WdcRedfishUtils.OEM not in data[WdcRedfishUtils.ACTIONS]:
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return None
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if WdcRedfishUtils.WDC not in data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM]:
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return None
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if WdcRedfishUtils.CHASSIS_LOCATE not in data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM][WdcRedfishUtils.WDC]:
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return None
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if WdcRedfishUtils.TARGET not in data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM][WdcRedfishUtils.WDC][WdcRedfishUtils.CHASSIS_LOCATE]:
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return None
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return data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM][WdcRedfishUtils.WDC][WdcRedfishUtils.CHASSIS_LOCATE][WdcRedfishUtils.TARGET]
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@staticmethod
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def _get_power_mode_uri(data):
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"""Get the Power Mode URI given a resource body."""
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if WdcRedfishUtils.ACTIONS not in data:
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return None
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if WdcRedfishUtils.OEM not in data[WdcRedfishUtils.ACTIONS]:
|
|
return None
|
|
if WdcRedfishUtils.WDC not in data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM]:
|
|
return None
|
|
if WdcRedfishUtils.CHASSIS_POWER_MODE not in data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM][WdcRedfishUtils.WDC]:
|
|
return None
|
|
if WdcRedfishUtils.TARGET not in data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM][WdcRedfishUtils.WDC][WdcRedfishUtils.CHASSIS_POWER_MODE]:
|
|
return None
|
|
return data[WdcRedfishUtils.ACTIONS][WdcRedfishUtils.OEM][WdcRedfishUtils.WDC][WdcRedfishUtils.CHASSIS_POWER_MODE][WdcRedfishUtils.TARGET]
|
|
|
|
def manage_indicator_led(self, command, resource_uri):
|
|
key = 'IndicatorLED'
|
|
|
|
payloads = {'IndicatorLedOn': 'On', 'IndicatorLedOff': 'Off'}
|
|
current_led_status_map = {'IndicatorLedOn': 'Blinking', 'IndicatorLedOff': 'Off'}
|
|
|
|
result = {}
|
|
response = self.get_request(self.root_uri + resource_uri)
|
|
if response['ret'] is False:
|
|
return response
|
|
result['ret'] = True
|
|
data = response['data']
|
|
if key not in data:
|
|
return {'ret': False, 'msg': "Key %s not found" % key}
|
|
current_led_status = data[key]
|
|
if current_led_status == current_led_status_map[command]:
|
|
return {'ret': True, 'changed': False}
|
|
|
|
led_locate_uri = self._get_led_locate_uri(data)
|
|
if led_locate_uri is None:
|
|
return {'ret': False, 'msg': 'LED locate URI not found.'}
|
|
|
|
if command in payloads.keys():
|
|
payload = {'LocateState': payloads[command]}
|
|
response = self.post_request(self.root_uri + led_locate_uri, payload)
|
|
if response['ret'] is False:
|
|
return response
|
|
else:
|
|
return {'ret': False, 'msg': 'Invalid command'}
|
|
|
|
return result
|
|
|
|
def manage_chassis_power_mode(self, command):
|
|
return self.manage_power_mode(command, self.chassis_uri)
|
|
|
|
def manage_power_mode(self, command, resource_uri=None):
|
|
if resource_uri is None:
|
|
resource_uri = self.chassis_uri
|
|
|
|
payloads = {'PowerModeNormal': 'Normal', 'PowerModeLow': 'Low'}
|
|
requested_power_mode = payloads[command]
|
|
|
|
result = {}
|
|
response = self.get_request(self.root_uri + resource_uri)
|
|
if response['ret'] is False:
|
|
return response
|
|
result['ret'] = True
|
|
data = response['data']
|
|
|
|
# Make sure the response includes Oem.WDC.PowerMode, and get current power mode
|
|
power_mode = 'PowerMode'
|
|
if WdcRedfishUtils.OEM not in data or WdcRedfishUtils.WDC not in data[WdcRedfishUtils.OEM] or\
|
|
power_mode not in data[WdcRedfishUtils.OEM][WdcRedfishUtils.WDC]:
|
|
return {'ret': False, 'msg': 'Resource does not support Oem.WDC.PowerMode'}
|
|
current_power_mode = data[WdcRedfishUtils.OEM][WdcRedfishUtils.WDC][power_mode]
|
|
if current_power_mode == requested_power_mode:
|
|
return {'ret': True, 'changed': False}
|
|
|
|
power_mode_uri = self._get_power_mode_uri(data)
|
|
if power_mode_uri is None:
|
|
return {'ret': False, 'msg': 'Power Mode URI not found.'}
|
|
|
|
if command in payloads.keys():
|
|
payload = {'PowerMode': payloads[command]}
|
|
response = self.post_request(self.root_uri + power_mode_uri, payload)
|
|
if response['ret'] is False:
|
|
return response
|
|
else:
|
|
return {'ret': False, 'msg': 'Invalid command'}
|
|
|
|
return result
|