Add new module for Redfish APIs (#41656)

* Add new module for Redfish APIs

Communicates with Out-Of-Band Controller through Redfish APIs
Module gathers hardware information and sends back

* Removed unused library imports

* Removed token entry from headers

* Made 'command' optional and defined default value for each 'category'

* Replace 'result' with 'ansible_facts' for returned dict variable

* Removed unused variable definitions and library imports

* Renamed dicts where data is returned.

Should make it easier to sort through returned data that is placed
in one file.

* Defined dicts to specify available categories and commands in each one.

- Allows specifying default command for each category
- Allows specifying all commands for each category
- Removed Inventory category and moved commands to System category
- Renamed dicts where data is returned to allow to dump more than one in a file

* Remove choice[] since it's redundant

* Added flexibility when specifying categories

- If a category is not specified, it sets a default value
- Can handle more than one category
- Will accept value "all" for category which will set to all available
- Renamed category System to Systems to better reflect Redfish API

* Defined default category in a variable

* Made category argument a list

* Added examples

* Made command argument a list

* Replaced 'ansible_facts' with 'redfish_facts' for returned dict variable.

* Added default value for category in documentation

* Moving redfish_facts inside ansible_facts

* Updated how results dicts are constructed, where applicable

* Improved error messages

* Removed unused variables

* Undo commit 66a7dcd789726913bdb7a25e59cc3aa2125db95d due to variable 'e' oversight
This commit is contained in:
Jose Delarosa 2018-07-27 11:21:25 -05:00 committed by ansibot
parent 711dd9f834
commit 779d273192
3 changed files with 1186 additions and 0 deletions

View file

@ -0,0 +1,920 @@
# Copyright (c) 2017-2018 Dell EMC Inc.
# GNU General Public License v3.0+ (see LICENSE or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
import json
import re
from ansible.module_utils.urls import open_url
from ansible.module_utils.six.moves.urllib.error import URLError, HTTPError
HEADERS = {'content-type': 'application/json'}
class RedfishUtils(object):
def __init__(self, creds, root_uri):
self.root_uri = root_uri
self.creds = creds
self._init_session()
return
# The following functions are to send GET/POST/PATCH/DELETE requests
def get_request(self, uri):
try:
resp = open_url(uri, method="GET",
url_username=self.creds['user'],
url_password=self.creds['pswd'],
force_basic_auth=True, validate_certs=False,
timeout=10, use_proxy=False)
data = json.loads(resp.read())
except HTTPError as e:
return {'ret': False, 'msg': "HTTP Error: %s" % e.code}
except URLError as e:
return {'ret': False, 'msg': "URL Error: %s" % e.reason}
# Almost all errors should be caught above, but just in case
except:
return {'ret': False, 'msg': "Unknown error"}
return {'ret': True, 'data': data}
def post_request(self, uri, pyld, hdrs):
try:
resp = open_url(uri, data=json.dumps(pyld),
headers=hdrs, method="POST",
url_username=self.creds['user'],
url_password=self.creds['pswd'],
force_basic_auth=True, validate_certs=False,
use_proxy=False)
except HTTPError as e:
return {'ret': False, 'msg': "HTTP Error: %s" % e.code}
except URLError as e:
return {'ret': False, 'msg': "URL Error: %s" % e.reason}
# Almost all errors should be caught above, but just in case
except:
return {'ret': False, 'msg': "Unknown error"}
return {'ret': True, 'resp': resp}
def patch_request(self, uri, pyld, hdrs):
try:
resp = open_url(uri, data=json.dumps(pyld),
headers=hdrs, method="PATCH",
url_username=self.creds['user'],
url_password=self.creds['pswd'],
force_basic_auth=True, validate_certs=False,
use_proxy=False)
except HTTPError as e:
return {'ret': False, 'msg': "HTTP Error: %s" % e.code}
except URLError as e:
return {'ret': False, 'msg': "URL Error: %s" % e.reason}
# Almost all errors should be caught above, but just in case
except:
return {'ret': False, 'msg': "Unknown error"}
return {'ret': True, 'resp': resp}
def delete_request(self, uri, pyld, hdrs):
try:
resp = open_url(uri, data=json.dumps(pyld),
headers=hdrs, method="DELETE",
url_username=self.creds['user'],
url_password=self.creds['pswd'],
force_basic_auth=True, validate_certs=False,
use_proxy=False)
except HTTPError as e:
return {'ret': False, 'msg': "HTTP Error: %s" % e.code}
except URLError as e:
return {'ret': False, 'msg': "URL Error: %s" % e.reason}
# Almost all errors should be caught above, but just in case
except:
return {'ret': False, 'msg': "Unknown error"}
return {'ret': True, 'resp': resp}
def _init_session(self):
pass
def _find_accountservice_resource(self, uri):
response = self.get_request(self.root_uri + uri)
if response['ret'] is False:
return response
data = response['data']
if 'AccountService' not in data:
return {'ret': False, 'msg': "AccountService resource not found"}
else:
account_service = data["AccountService"]["@odata.id"]
response = self.get_request(self.root_uri + account_service)
if response['ret'] is False:
return response
data = response['data']
accounts = data['Accounts']['@odata.id']
if accounts[-1:] == '/':
accounts = accounts[:-1]
self.accounts_uri = accounts
return {'ret': True}
def _find_systems_resource(self, uri):
response = self.get_request(self.root_uri + uri)
if response['ret'] is False:
return response
data = response['data']
if 'Systems' not in data:
return {'ret': False, 'msg': "Systems resource not found"}
else:
systems = data["Systems"]["@odata.id"]
response = self.get_request(self.root_uri + systems)
if response['ret'] is False:
return response
data = response['data']
for member in data[u'Members']:
systems_service = member[u'@odata.id']
self.systems_uri = systems_service
return {'ret': True}
def _find_updateservice_resource(self, uri):
response = self.get_request(self.root_uri + uri)
if response['ret'] is False:
return response
data = response['data']
if 'UpdateService' not in data:
return {'ret': False, 'msg': "UpdateService resource not found"}
else:
update = data["UpdateService"]["@odata.id"]
self.update_uri = update
response = self.get_request(self.root_uri + update)
if response['ret'] is False:
return response
data = response['data']
firmware_inventory = data['FirmwareInventory'][u'@odata.id']
self.firmware_uri = firmware_inventory
return {'ret': True}
def _find_chassis_resource(self, uri):
chassis_service = []
response = self.get_request(self.root_uri + uri)
if response['ret'] is False:
return response
data = response['data']
if 'Chassis' not in data:
return {'ret': False, 'msg': "Chassis resource not found"}
else:
chassis = data["Chassis"]["@odata.id"]
response = self.get_request(self.root_uri + chassis)
if response['ret'] is False:
return response
data = response['data']
for member in data[u'Members']:
chassis_service.append(member[u'@odata.id'])
self.chassis_uri_list = chassis_service
return {'ret': True}
def _find_managers_resource(self, uri):
response = self.get_request(self.root_uri + uri)
if response['ret'] is False:
return response
data = response['data']
if 'Managers' not in data:
return {'ret': False, 'msg': "Manager resource not found"}
else:
manager = data["Managers"]["@odata.id"]
response = self.get_request(self.root_uri + manager)
if response['ret'] is False:
return response
data = response['data']
for member in data[u'Members']:
manager_service = member[u'@odata.id']
self.manager_uri = manager_service
return {'ret': True}
def get_logs(self):
log_svcs_uri_list = []
list_of_logs = []
# Find LogService
response = self.get_request(self.root_uri + self.manager_uri)
if response['ret'] is False:
return response
data = response['data']
if 'LogServices' not in data:
return {'ret': False, 'msg': "LogServices resource not found"}
# Find all entries in LogServices
logs_uri = data["LogServices"]["@odata.id"]
response = self.get_request(self.root_uri + logs_uri)
if response['ret'] is False:
return response
data = response['data']
for log_svcs_entry in data[u'Members']:
response = self.get_request(self.root_uri + log_svcs_entry[u'@odata.id'])
if response['ret'] is False:
return response
_data = response['data']
log_svcs_uri_list.append(_data['Entries'][u'@odata.id'])
# For each entry in LogServices, get log name and all log entries
for log_svcs_uri in log_svcs_uri_list:
logs = {}
list_of_log_entries = []
response = self.get_request(self.root_uri + log_svcs_uri)
if response['ret'] is False:
return response
data = response['data']
logs['Description'] = data['Description']
# Get all log entries for each type of log found
for logEntry in data[u'Members']:
# I only extract some fields - Are these entry names standard?
list_of_log_entries.append(dict(
Name=logEntry[u'Name'],
Created=logEntry[u'Created'],
Message=logEntry[u'Message'],
Severity=logEntry[u'Severity']))
log_name = log_svcs_uri.split('/')[-1]
logs[log_name] = list_of_log_entries
list_of_logs.append(logs)
# list_of_logs[logs{list_of_log_entries[entry{}]}]
return {'ret': True, 'entries': list_of_logs}
def clear_logs(self):
# Find LogService
response = self.get_request(self.root_uri + self.manager_uri)
if response['ret'] is False:
return response
data = response['data']
if 'LogServices' not in data:
return {'ret': False, 'msg': "LogServices resource not found"}
# Find all entries in LogServices
logs_uri = data["LogServices"]["@odata.id"]
response = self.get_request(self.root_uri + logs_uri)
if response['ret'] is False:
return response
data = response['data']
for log_svcs_entry in data[u'Members']:
response = self.get_request(self.root_uri + log_svcs_entry["@odata.id"])
if response['ret'] is False:
return response
_data = response['data']
# Check to make sure option is available, otherwise error is ugly
if "Actions" in _data:
if "#LogService.ClearLog" in _data[u"Actions"]:
self.post_request(self.root_uri + _data[u"Actions"]["#LogService.ClearLog"]["target"], {}, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def get_storage_controller_inventory(self):
result = {}
controllers_details = []
controller_list = []
# Find Storage service
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
data = response['data']
if 'SimpleStorage' not in data:
return {'ret': False, 'msg': "SimpleStorage resource not found"}
# Get a list of all storage controllers and build respective URIs
storage_uri = data["SimpleStorage"]["@odata.id"]
response = self.get_request(self.root_uri + storage_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for controller in data[u'Members']:
controller_list.append(controller[u'@odata.id'])
for c in controller_list:
uri = self.root_uri + c
response = self.get_request(uri)
if response['ret'] is False:
return response
data = response['data']
controllers_details.append(dict(
Name=data[u'Name'],
Health=data[u'Status'][u'Health']))
result["entries"] = controllers_details
return result
def get_disk_inventory(self):
result = {}
disks_details = []
controller_list = []
# Find Storage service
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
data = response['data']
if 'SimpleStorage' not in data:
return {'ret': False, 'msg': "SimpleStorage resource not found"}
# Get a list of all storage controllers and build respective URIs
storage_uri = data["SimpleStorage"]["@odata.id"]
response = self.get_request(self.root_uri + storage_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for controller in data[u'Members']:
controller_list.append(controller[u'@odata.id'])
for c in controller_list:
uri = self.root_uri + c
response = self.get_request(uri)
if response['ret'] is False:
return response
data = response['data']
for device in data[u'Devices']:
disks_details.append(dict(
Controller=data[u'Name'],
Name=device[u'Name'],
Manufacturer=device[u'Manufacturer'],
Model=device[u'Model'],
State=device[u'Status'][u'State'],
Health=device[u'Status'][u'Health']))
result["entries"] = disks_details
return result
def restart_manager_gracefully(self):
result = {}
key = "Actions"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.manager_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
action_uri = data[key]["#Manager.Reset"]["target"]
payload = {'ResetType': 'GracefulRestart'}
response = self.post_request(self.root_uri + action_uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def manage_system_power(self, command):
result = {}
key = "Actions"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
action_uri = data[key]["#ComputerSystem.Reset"]["target"]
# Define payload accordingly
if command == "PowerOn":
payload = {'ResetType': 'On'}
elif command == "PowerForceOff":
payload = {'ResetType': 'ForceOff'}
elif command == "PowerGracefulRestart":
payload = {'ResetType': 'GracefulRestart'}
elif command == "PowerGracefulShutdown":
payload = {'ResetType': 'GracefulShutdown'}
else:
return {'ret': False, 'msg': 'Invalid Command'}
response = self.post_request(self.root_uri + action_uri, payload, HEADERS)
if response['ret'] is False:
return response
result['ret'] = True
return result
def list_users(self):
result = {}
# listing all users has always been slower than other operations, why?
allusers = []
allusers_details = []
response = self.get_request(self.root_uri + self.accounts_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for users in data[u'Members']:
allusers.append(users[u'@odata.id']) # allusers[] are URIs
# for each user, get details
for uri in allusers:
response = self.get_request(self.root_uri + uri)
if response['ret'] is False:
return response
data = response['data']
if not data[u'UserName'] == "": # only care if name is not empty
allusers_details.append(dict(
Id=data[u'Id'],
Name=data[u'Name'],
UserName=data[u'UserName'],
RoleId=data[u'RoleId']))
result["entries"] = allusers_details
return result
def add_user(self, user):
uri = self.root_uri + self.accounts_uri + "/" + user['userid']
username = {'UserName': user['username']}
pswd = {'Password': user['userpswd']}
roleid = {'RoleId': user['userrole']}
enabled = {'Enabled': True}
for payload in username, pswd, roleid, enabled:
response = self.patch_request(uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def enable_user(self, user):
uri = self.root_uri + self.accounts_uri + "/" + user['userid']
payload = {'Enabled': True}
response = self.patch_request(uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def delete_user(self, user):
uri = self.root_uri + self.accounts_uri + "/" + user['userid']
payload = {'UserName': ""}
response = self.patch_request(uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def disable_user(self, user):
uri = self.root_uri + self.accounts_uri + "/" + user['userid']
payload = {'Enabled': False}
response = self.patch_request(uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def update_user_role(self, user):
uri = self.root_uri + self.accounts_uri + "/" + user['userid']
payload = {'RoleId': user['userrole']}
response = self.patch_request(uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def update_user_password(self, user):
uri = self.root_uri + self.accounts_uri + "/" + user['userid']
payload = {'Password': user['userpswd']}
response = self.patch_request(uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def get_firmware_inventory(self):
result = {}
firmware = {}
response = self.get_request(self.root_uri + self.firmware_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for device in data[u'Members']:
d = device[u'@odata.id']
d = d.replace(self.firmware_uri, "") # leave just device name
if "Installed" in d:
uri = self.root_uri + self.firmware_uri + d
# Get details for each device that is relevant
response = self.get_request(uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
firmware[data[u'Name']] = data[u'Version']
result["entries"] = firmware
return result
def get_manager_attributes(self):
result = {}
manager_attributes = {}
attributes_id = "Attributes"
response = self.get_request(self.root_uri + self.manager_uri + "/" + attributes_id)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for attribute in data[u'Attributes'].items():
manager_attributes[attribute[0]] = attribute[1]
result["entries"] = manager_attributes
return result
def get_bios_attributes(self):
result = {}
bios_attributes = {}
key = "Bios"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
bios_uri = data[key]["@odata.id"]
response = self.get_request(self.root_uri + bios_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for attribute in data[u'Attributes'].items():
bios_attributes[attribute[0]] = attribute[1]
result["entries"] = bios_attributes
return result
def get_bios_boot_order(self):
result = {}
boot_device_list = []
boot_device_details = []
key = "Bios"
bootsources = "BootSources"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
bios_uri = data[key]["@odata.id"]
# Get boot mode first as it will determine what attribute to read
response = self.get_request(self.root_uri + bios_uri)
if response['ret'] is False:
return response
data = response['data']
boot_mode = data[u'Attributes']["BootMode"]
if boot_mode == "Uefi":
boot_seq = "UefiBootSeq"
else:
boot_seq = "BootSeq"
response = self.get_request(self.root_uri + self.systems_uri + "/" + bootsources)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
boot_device_list = data[u'Attributes'][boot_seq]
for b in boot_device_list:
boot_device = {}
boot_device["Index"] = b[u'Index']
boot_device["Name"] = b[u'Name']
boot_device["Enabled"] = b[u'Enabled']
boot_device_details.append(boot_device)
result["entries"] = boot_device_details
return result
def set_bios_default_settings(self):
result = {}
key = "Bios"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
bios_uri = data[key]["@odata.id"]
# Extract proper URI
response = self.get_request(self.root_uri + bios_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
reset_bios_settings_uri = data["Actions"]["#Bios.ResetBios"]["target"]
response = self.post_request(self.root_uri + reset_bios_settings_uri, {}, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def set_one_time_boot_device(self, bootdevice):
result = {}
key = "Bios"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
bios_uri = data[key]["@odata.id"]
response = self.get_request(self.root_uri + bios_uri)
if response['ret'] is False:
return response
data = response['data']
boot_mode = data[u'Attributes']["BootMode"]
if boot_mode == "Uefi":
payload = {"Boot": {"BootSourceOverrideTarget": "UefiTarget", "UefiTargetBootSourceOverride": bootdevice}}
else:
payload = {"Boot": {"BootSourceOverrideTarget": bootdevice}}
response = self.patch_request(self.root_uri + self.systems_uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def set_manager_attributes(self, attr):
attributes = "Attributes"
# Example: manager_attr = {\"name\":\"value\"}
# Check if value is a number. If so, convert to int.
if attr['mgr_attr_value'].isdigit():
manager_attr = "{\"%s\": %i}" % (attr['mgr_attr_name'], int(attr['mgr_attr_value']))
else:
manager_attr = "{\"%s\": \"%s\"}" % (attr['mgr_attr_name'], attr['mgr_attr_value'])
payload = {"Attributes": json.loads(manager_attr)}
response = self.patch_request(self.root_uri + self.manager_uri + "/" + attributes, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def set_bios_attributes(self, attr):
result = {}
key = "Bios"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
bios_uri = data[key]["@odata.id"]
# Extract proper URI
response = self.get_request(self.root_uri + bios_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
set_bios_attr_uri = data["@Redfish.Settings"]["SettingsObject"]["@odata.id"]
# Example: bios_attr = {\"name\":\"value\"}
bios_attr = "{\"" + attr['bios_attr_name'] + "\":\"" + attr['bios_attr_value'] + "\"}"
payload = {"Attributes": json.loads(bios_attr)}
response = self.patch_request(self.root_uri + set_bios_attr_uri, payload, HEADERS)
if response['ret'] is False:
return response
return {'ret': True}
def create_bios_config_job(self):
result = {}
key = "Bios"
jobs = "Jobs"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
bios_uri = data[key]["@odata.id"]
# Extract proper URI
response = self.get_request(self.root_uri + bios_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
set_bios_attr_uri = data["@Redfish.Settings"]["SettingsObject"]["@odata.id"]
payload = {"TargetSettingsURI": set_bios_attr_uri, "RebootJobType": "PowerCycle"}
response = self.post_request(self.root_uri + self.manager_uri + "/" + jobs, payload, HEADERS)
if response['ret'] is False:
return response
response_output = response['resp'].__dict__
job_id = response_output["headers"]["Location"]
job_id = re.search("JID_.+", job_id).group()
return {'ret': True, 'msg': 'Config job created', 'job_id': job_id}
def get_fan_inventory(self):
result = {}
fan_details = []
key = "Thermal"
# Go through list
for chassis_uri in self.chassis_uri_list:
response = self.get_request(self.root_uri + chassis_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
if key in data:
# match: found an entry for "Thermal" information = fans
thermal_uri = data[key]["@odata.id"]
response = self.get_request(self.root_uri + thermal_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for device in data[u'Fans']:
fan_details.append(dict(
# There is more information available but this is most important
Name=device[u'FanName'],
RPMs=device[u'Reading'],
State=device[u'Status'][u'State'],
Health=device[u'Status'][u'Health']))
result["entries"] = fan_details
return result
def get_cpu_inventory(self):
result = {}
cpu_details = []
cpu_list = []
key = "Processors"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
processors_uri = data[key]["@odata.id"]
# Get a list of all CPUs and build respective URIs
response = self.get_request(self.root_uri + processors_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for cpu in data[u'Members']:
cpu_list.append(cpu[u'@odata.id'])
for c in cpu_list:
uri = self.root_uri + c
response = self.get_request(uri)
if response['ret'] is False:
return response
data = response['data']
cpu_details.append(dict(
Name=data[u'Id'],
Manufacturer=data[u'Manufacturer'],
Model=data[u'Model'],
MaxSpeedMHz=data[u'MaxSpeedMHz'],
TotalCores=data[u'TotalCores'],
TotalThreads=data[u'TotalThreads'],
State=data[u'Status'][u'State'],
Health=data[u'Status'][u'Health']))
result["entries"] = cpu_details
return result
def get_nic_inventory(self):
result = {}
nic_details = []
nic_list = []
key = "EthernetInterfaces"
# Search for 'key' entry and extract URI from it
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
ethernetinterfaces_uri = data[key]["@odata.id"]
# Get a list of all network controllers and build respective URIs
response = self.get_request(self.root_uri + ethernetinterfaces_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for nic in data[u'Members']:
nic_list.append(nic[u'@odata.id'])
for n in nic_list:
nic = {}
uri = self.root_uri + n
response = self.get_request(uri)
if response['ret'] is False:
return response
data = response['data']
nic['Name'] = data[u'Name']
nic['FQDN'] = data[u'FQDN']
for d in data[u'IPv4Addresses']:
nic['IPv4'] = d[u'Address']
if 'GateWay' in d: # not always available
nic['Gateway'] = d[u'GateWay']
nic['SubnetMask'] = d[u'SubnetMask']
for d in data[u'IPv6Addresses']:
nic['IPv6'] = d[u'Address']
for d in data[u'NameServers']:
nic['NameServers'] = d
nic['MACAddress'] = data[u'PermanentMACAddress']
nic['SpeedMbps'] = data[u'SpeedMbps']
nic['MTU'] = data[u'MTUSize']
nic['AutoNeg'] = data[u'AutoNeg']
if 'Status' in data: # not available when power is off
nic['Health'] = data[u'Status'][u'Health']
nic['State'] = data[u'Status'][u'State']
nic_details.append(nic)
result["entries"] = nic_details
return result
def get_psu_inventory(self):
result = {}
psu_details = []
psu_list = []
# Get a list of all PSUs and build respective URIs
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
for psu in data[u'Links'][u'PoweredBy']:
psu_list.append(psu[u'@odata.id'])
for p in psu_list:
uri = self.root_uri + p
response = self.get_request(uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
psu = {}
psu['Name'] = data[u'Name']
psu['Model'] = data[u'Model']
psu['SerialNumber'] = data[u'SerialNumber']
psu['PartNumber'] = data[u'PartNumber']
if 'Manufacturer' in data: # not available in all generations
psu['Manufacturer'] = data[u'Manufacturer']
psu['FirmwareVersion'] = data[u'FirmwareVersion']
psu['PowerCapacityWatts'] = data[u'PowerCapacityWatts']
psu['PowerSupplyType'] = data[u'PowerSupplyType']
psu['Status'] = data[u'Status'][u'State']
psu['Health'] = data[u'Status'][u'Health']
psu_details.append(psu)
result["entries"] = psu_details
return result
def get_system_inventory(self):
result = {}
inventory = {}
response = self.get_request(self.root_uri + self.systems_uri)
if response['ret'] is False:
return response
result['ret'] = True
data = response['data']
# There could be more information to extract
inventory['Status'] = data[u'Status'][u'Health']
inventory['HostName'] = data[u'HostName']
inventory['PowerState'] = data[u'PowerState']
inventory['Model'] = data[u'Model']
inventory['Manufacturer'] = data[u'Manufacturer']
inventory['PartNumber'] = data[u'PartNumber']
inventory['SystemType'] = data[u'SystemType']
inventory['AssetTag'] = data[u'AssetTag']
inventory['ServiceTag'] = data[u'SKU']
inventory['SerialNumber'] = data[u'SerialNumber']
inventory['BiosVersion'] = data[u'BiosVersion']
inventory['MemoryTotal'] = data[u'MemorySummary'][u'TotalSystemMemoryGiB']
inventory['MemoryHealth'] = data[u'MemorySummary'][u'Status'][u'Health']
inventory['CpuCount'] = data[u'ProcessorSummary'][u'Count']
inventory['CpuModel'] = data[u'ProcessorSummary'][u'Model']
inventory['CpuHealth'] = data[u'ProcessorSummary'][u'Status'][u'Health']
datadict = data[u'Boot']
if 'BootSourceOverrideMode' in datadict.keys():
inventory['BootSourceOverrideMode'] = data[u'Boot'][u'BootSourceOverrideMode']
else:
# Not available in earlier server generations
inventory['BootSourceOverrideMode'] = "Not available"
if 'TrustedModules' in data:
for d in data[u'TrustedModules']:
if 'InterfaceType' in d.keys():
inventory['TPMInterfaceType'] = d[u'InterfaceType']
inventory['TPMStatus'] = d[u'Status'][u'State']
else:
# Not available in earlier server generations
inventory['TPMInterfaceType'] = "Not available"
inventory['TPMStatus'] = "Not available"
result["entries"] = inventory
return result

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@ -0,0 +1,266 @@
#!/usr/bin/python
# -*- coding: utf-8 -*-
# Copyright (c) 2017-2018 Dell EMC Inc.
# GNU General Public License v3.0+ (see LICENSE or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {'status': ['preview'],
'supported_by': 'community',
'metadata_version': '1.1'}
DOCUMENTATION = '''
---
module: redfish_facts
version_added: "2.7"
short_description: Manages Out-Of-Band controllers using Redfish APIs
description:
- Builds Redfish URIs locally and sends them to remote OOB controllers to
get information back.
- Information retrieved is placed in a location specified by the user.
options:
category:
required: false
description:
- List of categories to execute on OOB controller
default: ['Systems']
command:
required: false
description:
- List of commands to execute on OOB controller
baseuri:
required: true
description:
- Base URI of OOB controller
user:
required: true
description:
- User for authentication with OOB controller
password:
required: true
description:
- Password for authentication with OOB controller
author: "Jose Delarosa (github: jose-delarosa)"
'''
EXAMPLES = '''
- name: Get CPU inventory
redfish_facts:
category: Systems
command: GetCpuInventory
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
- name: Get fan inventory
redfish_facts:
category: Chassis
command: GetFanInventory
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
- name: Get default inventory information
redfish_facts:
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
- name: Get several inventories
redfish_facts:
category: Systems
command: GetNicInventory,GetPsuInventory,GetBiosAttributes
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
- name: Get default system inventory and user information
redfish_facts:
category: Systems,Accounts
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
- name: Get default system, user and firmware information
redfish_facts:
category: ["Systems", "Accounts", "Update"]
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
- name: Get all information available in the Manager category
redfish_facts:
category: Manager
command: all
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
- name: Get all information available in all categories
redfish_facts:
category: all
command: all
baseuri: "{{ baseuri }}"
user: "{{ user }}"
password: "{{ password }}"
'''
RETURN = '''
result:
description: different results depending on task
returned: always
type: dict
sample: List of CPUs on system
'''
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils.redfish_utils import RedfishUtils
CATEGORY_COMMANDS_ALL = {
"Systems": ["GetSystemInventory", "GetPsuInventory", "GetCpuInventory",
"GetNicInventory", "GetStorageControllerInventory",
"GetDiskInventory", "GetBiosAttributes", "GetBiosBootOrder"],
"Chassis": ["GetFanInventory"],
"Accounts": ["ListUsers"],
"Update": ["GetFirmwareInventory"],
"Manager": ["GetManagerAttributes", "GetLogs"],
}
CATEGORY_COMMANDS_DEFAULT = {
"Systems": "GetSystemInventory",
"Chassis": "GetFanInventory",
"Accounts": "ListUsers",
"Update": "GetFirmwareInventory",
"Manager": "GetManagerAttributes"
}
def main():
result = {}
resource = {}
category_list = []
module = AnsibleModule(
argument_spec=dict(
category=dict(type='list', default=['Systems']),
command=dict(type='list'),
baseuri=dict(required=True),
user=dict(required=True),
password=dict(required=True, no_log=True),
),
supports_check_mode=False
)
# admin credentials used for authentication
creds = {'user': module.params['user'],
'pswd': module.params['password']}
# Build root URI
root_uri = "https://" + module.params['baseuri']
rf_uri = "/redfish/v1"
rf_utils = RedfishUtils(creds, root_uri)
# Build Category list
if "all" in module.params['category']:
for entry in CATEGORY_COMMANDS_ALL:
category_list.append(entry)
else:
# one or more categories specified
category_list = module.params['category']
for category in category_list:
command_list = []
# Build Command list for each Category
if category in CATEGORY_COMMANDS_ALL:
if not module.params['command']:
# True if we don't specify a command --> use default
command_list.append(CATEGORY_COMMANDS_DEFAULT[category])
elif "all" in module.params['command']:
for entry in range(len(CATEGORY_COMMANDS_ALL[category])):
command_list.append(CATEGORY_COMMANDS_ALL[category][entry])
# one or more commands
else:
command_list = module.params['command']
# Verify that all commands are valid
for cmd in command_list:
# Fail if even one command given is invalid
if cmd not in CATEGORY_COMMANDS_ALL[category]:
module.fail_json(msg="Invalid Command: %s" % cmd)
else:
# Fail if even one category given is invalid
module.fail_json(msg="Invalid Category: %s" % category)
# Organize by Categories / Commands
if category == "Systems":
# execute only if we find a Systems resource
resource = rf_utils._find_systems_resource(rf_uri)
if resource['ret'] is False:
module.fail_json(msg=resource['msg'])
for command in command_list:
if command == "GetSystemInventory":
result["system"] = rf_utils.get_system_inventory()
elif command == "GetPsuInventory":
result["psu"] = rf_utils.get_psu_inventory()
elif command == "GetCpuInventory":
result["cpu"] = rf_utils.get_cpu_inventory()
elif command == "GetNicInventory":
result["nic"] = rf_utils.get_nic_inventory()
elif command == "GetStorageControllerInventory":
result["storage_controller"] = rf_utils.get_storage_controller_inventory()
elif command == "GetDiskInventory":
result["disk"] = rf_utils.get_disk_inventory()
elif command == "GetBiosAttributes":
result["bios_attribute"] = rf_utils.get_bios_attributes()
elif command == "GetBiosBootOrder":
result["bios_boot_order"] = rf_utils.get_bios_boot_order()
elif category == "Chassis":
# execute only if we find Chassis resource
resource = rf_utils._find_chassis_resource(rf_uri)
if resource['ret'] is False:
module.fail_json(msg=resource['msg'])
for command in command_list:
if command == "GetFanInventory":
result["fan"] = rf_utils.get_fan_inventory()
elif category == "Accounts":
# execute only if we find an Account service resource
resource = rf_utils._find_accountservice_resource(rf_uri)
if resource['ret'] is False:
module.fail_json(msg=resource['msg'])
for command in command_list:
if command == "ListUsers":
result["user"] = rf_utils.list_users()
elif category == "Update":
# execute only if we find UpdateService resources
resource = rf_utils._find_updateservice_resource(rf_uri)
if resource['ret'] is False:
module.fail_json(msg=resource['msg'])
for command in command_list:
if command == "GetFirmwareInventory":
result["firmware"] = rf_utils.get_firmware_inventory()
elif category == "Manager":
# execute only if we find a Manager service resource
resource = rf_utils._find_managers_resource(rf_uri)
if resource['ret'] is False:
module.fail_json(msg=resource['msg'])
for command in command_list:
if command == "GetManagerAttributes":
result["manager_attributes"] = rf_utils.get_manager_attributes()
elif command == "GetLogs":
result["log"] = rf_utils.get_logs()
# Return data back
module.exit_json(ansible_facts=dict(redfish_facts=result))
if __name__ == '__main__':
main()