community.general/plugins/module_utils/ocapi_utils.py

# -*- coding: utf-8 -*-
# Copyright (c) 2022 Western Digital Corporation
# GNU General Public License v3.0+ (see LICENSE or https://www.gnu.org/licenses/gpl-3.0.txt)
# GNU General Public License v3.0+ (see LICENSES/GPL-3.0-or-later.txt or https://www.gnu.org/licenses/gpl-3.0.txt)
# SPDX-License-Identifier: GPL-3.0-or-later

from __future__ import absolute_import, division, print_function
__metaclass__ = type

import json
import os
import uuid

from ansible.module_utils.urls import open_url
from ansible.module_utils.common.text.converters import to_native
from ansible.module_utils.common.text.converters import to_text
from ansible.module_utils.six.moves.urllib.error import URLError, HTTPError
from ansible.module_utils.six.moves.urllib.parse import urlparse


GET_HEADERS = {'accept': 'application/json'}
PUT_HEADERS = {'content-type': 'application/json', 'accept': 'application/json'}
POST_HEADERS = {'content-type': 'application/json', 'accept': 'application/json'}
DELETE_HEADERS = {'accept': 'application/json'}

HEALTH_OK = 5


class OcapiUtils(object):

    def __init__(self, creds, base_uri, proxy_slot_number, timeout, module):
        self.root_uri = base_uri
        self.proxy_slot_number = proxy_slot_number
        self.creds = creds
        self.timeout = timeout
        self.module = module

    def _auth_params(self):
        """
        Return tuple of required authentication params based on the username and password.

        :return: tuple of username, password
        """
        username = self.creds['user']
        password = self.creds['pswd']
        force_basic_auth = True
        return username, password, force_basic_auth

    def get_request(self, uri):
        req_headers = dict(GET_HEADERS)
        username, password, basic_auth = self._auth_params()
        try:
            resp = open_url(uri, method="GET", headers=req_headers,
                            url_username=username, url_password=password,
                            force_basic_auth=basic_auth, validate_certs=False,
                            follow_redirects='all',
                            use_proxy=True, timeout=self.timeout)
            data = json.loads(to_native(resp.read()))
            headers = dict((k.lower(), v) for (k, v) in resp.info().items())
        except HTTPError as e:
            return {'ret': False,
                    'msg': "HTTP Error %s on GET request to '%s'"
                           % (e.code, uri),
                    'status': e.code}
        except URLError as e:
            return {'ret': False, 'msg': "URL Error on GET request to '%s': '%s'"
                                         % (uri, e.reason)}
        # Almost all errors should be caught above, but just in case
        except Exception as e:
            return {'ret': False,
                    'msg': "Failed GET request to '%s': '%s'" % (uri, to_text(e))}
        return {'ret': True, 'data': data, 'headers': headers}

    def delete_request(self, uri, etag=None):
        req_headers = dict(DELETE_HEADERS)
        if etag is not None:
            req_headers['If-Match'] = etag
        username, password, basic_auth = self._auth_params()
        try:
            resp = open_url(uri, method="DELETE", headers=req_headers,
                            url_username=username, url_password=password,
                            force_basic_auth=basic_auth, validate_certs=False,
                            follow_redirects='all',
                            use_proxy=True, timeout=self.timeout)
            if resp.status != 204:
                data = json.loads(to_native(resp.read()))
            else:
                data = ""
            headers = dict((k.lower(), v) for (k, v) in resp.info().items())
        except HTTPError as e:
            return {'ret': False,
                    'msg': "HTTP Error %s on DELETE request to '%s'"
                           % (e.code, uri),
                    'status': e.code}
        except URLError as e:
            return {'ret': False, 'msg': "URL Error on DELETE request to '%s': '%s'"
                                         % (uri, e.reason)}
        # Almost all errors should be caught above, but just in case
        except Exception as e:
            return {'ret': False,
                    'msg': "Failed DELETE request to '%s': '%s'" % (uri, to_text(e))}
        return {'ret': True, 'data': data, 'headers': headers}

    def put_request(self, uri, payload, etag=None):
        req_headers = dict(PUT_HEADERS)
        if etag is not None:
            req_headers['If-Match'] = etag
        username, password, basic_auth = self._auth_params()
        try:
            resp = open_url(uri, data=json.dumps(payload),
                            headers=req_headers, method="PUT",
                            url_username=username, url_password=password,
                            force_basic_auth=basic_auth, validate_certs=False,
                            follow_redirects='all',
                            use_proxy=True, timeout=self.timeout)
            headers = dict((k.lower(), v) for (k, v) in resp.info().items())
        except HTTPError as e:
            return {'ret': False,
                    'msg': "HTTP Error %s on PUT request to '%s'"
                           % (e.code, uri),
                    'status': e.code}
        except URLError as e:
            return {'ret': False, 'msg': "URL Error on PUT request to '%s': '%s'"
                                         % (uri, e.reason)}
        # Almost all errors should be caught above, but just in case
        except Exception as e:
            return {'ret': False,
                    'msg': "Failed PUT request to '%s': '%s'" % (uri, to_text(e))}
        return {'ret': True, 'headers': headers, 'resp': resp}

    def post_request(self, uri, payload, content_type="application/json", timeout=None):
        req_headers = dict(POST_HEADERS)
        if content_type != "application/json":
            req_headers["content-type"] = content_type
        username, password, basic_auth = self._auth_params()
        if content_type == "application/json":
            request_data = json.dumps(payload)
        else:
            request_data = payload
        try:
            resp = open_url(uri, data=request_data,
                            headers=req_headers, method="POST",
                            url_username=username, url_password=password,
                            force_basic_auth=basic_auth, validate_certs=False,
                            follow_redirects='all',
                            use_proxy=True, timeout=self.timeout if timeout is None else timeout)
            headers = dict((k.lower(), v) for (k, v) in resp.info().items())
        except HTTPError as e:
            return {'ret': False,
                    'msg': "HTTP Error %s on POST request to '%s'"
                           % (e.code, uri),
                    'status': e.code}
        except URLError as e:
            return {'ret': False, 'msg': "URL Error on POST request to '%s': '%s'"
                                         % (uri, e.reason)}
        # Almost all errors should be caught above, but just in case
        except Exception as e:
            return {'ret': False,
                    'msg': "Failed POST request to '%s': '%s'" % (uri, to_text(e))}
        return {'ret': True, 'headers': headers, 'resp': resp}

    def get_uri_with_slot_number_query_param(self, uri):
        """Return the URI with proxy slot number added as a query param, if there is one.

        If a proxy slot number is provided, to access it, we must append it as a query parameter.
        This method returns the given URI with the slotnumber query param added, if there is one.
        If there is not a proxy slot number, it just returns the URI as it was passed in.
        """
        if self.proxy_slot_number is not None:
            parsed_url = urlparse(uri)
            return parsed_url._replace(query="slotnumber=" + str(self.proxy_slot_number)).geturl()
        else:
            return uri

    def manage_system_power(self, command):
        """Process a command to manage the system power.

        :param str command: The Ansible command being processed.
        """
        if command == "PowerGracefulRestart":
            resource_uri = self.root_uri
            resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)

            # Get the resource so that we have the Etag
            response = self.get_request(resource_uri)
            if 'etag' not in response['headers']:
                return {'ret': False, 'msg': 'Etag not found in response.'}
            etag = response['headers']['etag']
            if response['ret'] is False:
                return response

            # Issue the PUT to do the reboot (unless we are in check mode)
            if self.module.check_mode:
                return {
                    'ret': True,
                    'changed': True,
                    'msg': 'Update not performed in check mode.'
                }
            payload = {'Reboot': True}
            response = self.put_request(resource_uri, payload, etag)
            if response['ret'] is False:
                return response
        elif command.startswith("PowerMode"):
            return self.manage_power_mode(command)
        else:
            return {'ret': False, 'msg': 'Invalid command: ' + command}

        return {'ret': True}

    def manage_chassis_indicator_led(self, command):
        """Process a command to manage the chassis indicator LED.

        :param string command: The Ansible command being processed.
        """
        return self.manage_indicator_led(command, self.root_uri)

    def manage_indicator_led(self, command, resource_uri=None):
        """Process a command to manage an indicator LED.

        :param string command: The Ansible command being processed.
        :param string resource_uri: URI of the resource whose indicator LED is being managed.
        """
        key = "IndicatorLED"
        if resource_uri is None:
            resource_uri = self.root_uri
        resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)

        payloads = {
            'IndicatorLedOn': {
                'ID': 2
            },
            'IndicatorLedOff': {
                'ID': 4
            }
        }

        response = self.get_request(resource_uri)
        if 'etag' not in response['headers']:
            return {'ret': False, 'msg': 'Etag not found in response.'}
        etag = response['headers']['etag']
        if response['ret'] is False:
            return response
        data = response['data']
        if key not in data:
            return {'ret': False, 'msg': "Key %s not found" % key}
        if 'ID' not in data[key]:
            return {'ret': False, 'msg': 'IndicatorLED for resource has no ID.'}

        if command in payloads.keys():
            # See if the LED is already set as requested.
            current_led_status = data[key]['ID']
            if current_led_status == payloads[command]['ID']:
                return {'ret': True, 'changed': False}

            # Set the LED (unless we are in check mode)
            if self.module.check_mode:
                return {
                    'ret': True,
                    'changed': True,
                    'msg': 'Update not performed in check mode.'
                }
            payload = {'IndicatorLED': payloads[command]}
            response = self.put_request(resource_uri, payload, etag)
            if response['ret'] is False:
                return response
        else:
            return {'ret': False, 'msg': 'Invalid command'}

        return {'ret': True}

    def manage_power_mode(self, command):
        key = "PowerState"
        resource_uri = self.get_uri_with_slot_number_query_param(self.root_uri)

        payloads = {
            "PowerModeNormal": 2,
            "PowerModeLow": 4
        }

        response = self.get_request(resource_uri)
        if 'etag' not in response['headers']:
            return {'ret': False, 'msg': 'Etag not found in response.'}
        etag = response['headers']['etag']
        if response['ret'] is False:
            return response
        data = response['data']
        if key not in data:
            return {'ret': False, 'msg': "Key %s not found" % key}
        if 'ID' not in data[key]:
            return {'ret': False, 'msg': 'PowerState for resource has no ID.'}

        if command in payloads.keys():
            # See if the PowerState is already set as requested.
            current_power_state = data[key]['ID']
            if current_power_state == payloads[command]:
                return {'ret': True, 'changed': False}

            # Set the Power State (unless we are in check mode)
            if self.module.check_mode:
                return {
                    'ret': True,
                    'changed': True,
                    'msg': 'Update not performed in check mode.'
                }
            payload = {'PowerState': {"ID": payloads[command]}}
            response = self.put_request(resource_uri, payload, etag)
            if response['ret'] is False:
                return response
        else:
            return {'ret': False, 'msg': 'Invalid command: ' + command}

        return {'ret': True}

    def prepare_multipart_firmware_upload(self, filename):
        """Prepare a multipart/form-data body for OCAPI firmware upload.

        :arg filename: The name of the file to upload.
        :returns: tuple of (content_type, body) where ``content_type`` is
            the ``multipart/form-data`` ``Content-Type`` header including
            ``boundary`` and ``body`` is the prepared bytestring body

        Prepares the body to include "FirmwareFile" field with the contents of the file.
        Because some OCAPI targets do not support Base-64 encoding for multipart/form-data,
        this method sends the file as binary.
        """
        boundary = str(uuid.uuid4())  # Generate a random boundary
        body = "--" + boundary + '\r\n'
        body += 'Content-Disposition: form-data; name="FirmwareFile"; filename="%s"\r\n' % to_native(os.path.basename(filename))
        body += 'Content-Type: application/octet-stream\r\n\r\n'
        body_bytes = bytearray(body, 'utf-8')
        with open(filename, 'rb') as f:
            body_bytes += f.read()
        body_bytes += bytearray("\r\n--%s--" % boundary, 'utf-8')
        return ("multipart/form-data; boundary=%s" % boundary,
                body_bytes)

    def upload_firmware_image(self, update_image_path):
        """Perform Firmware Upload to the OCAPI storage device.

        :param str update_image_path: The path/filename of the firmware image, on the local filesystem.
        """
        if not (os.path.exists(update_image_path) and os.path.isfile(update_image_path)):
            return {'ret': False, 'msg': 'File does not exist.'}
        url = self.root_uri + "OperatingSystem"
        url = self.get_uri_with_slot_number_query_param(url)
        content_type, b_form_data = self.prepare_multipart_firmware_upload(update_image_path)

        # Post the firmware (unless we are in check mode)
        if self.module.check_mode:
            return {
                'ret': True,
                'changed': True,
                'msg': 'Update not performed in check mode.'
            }
        result = self.post_request(url, b_form_data, content_type=content_type, timeout=300)
        if result['ret'] is False:
            return result
        return {'ret': True}

    def update_firmware_image(self):
        """Perform a Firmware Update on the OCAPI storage device."""
        resource_uri = self.root_uri
        resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)
        # We have to do a GET to obtain the Etag.  It's required on the PUT.
        response = self.get_request(resource_uri)
        if response['ret'] is False:
            return response
        if 'etag' not in response['headers']:
            return {'ret': False, 'msg': 'Etag not found in response.'}
        etag = response['headers']['etag']

        # Issue the PUT (unless we are in check mode)
        if self.module.check_mode:
            return {
                'ret': True,
                'changed': True,
                'msg': 'Update not performed in check mode.'
            }
        payload = {'FirmwareUpdate': True}
        response = self.put_request(resource_uri, payload, etag)
        if response['ret'] is False:
            return response

        return {'ret': True, 'jobUri': response["headers"]["location"]}

    def activate_firmware_image(self):
        """Perform a Firmware Activate on the OCAPI storage device."""
        resource_uri = self.root_uri
        resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)
        # We have to do a GET to obtain the Etag.  It's required on the PUT.
        response = self.get_request(resource_uri)
        if 'etag' not in response['headers']:
            return {'ret': False, 'msg': 'Etag not found in response.'}
        etag = response['headers']['etag']
        if response['ret'] is False:
            return response

        # Issue the PUT (unless we are in check mode)
        if self.module.check_mode:
            return {
                'ret': True,
                'changed': True,
                'msg': 'Update not performed in check mode.'
            }
        payload = {'FirmwareActivate': True}
        response = self.put_request(resource_uri, payload, etag)
        if response['ret'] is False:
            return response

        return {'ret': True, 'jobUri': response["headers"]["location"]}

    def get_job_status(self, job_uri):
        """Get the status of a job.

        :param str job_uri: The URI of the job's status monitor.
        """
        job_uri = self.get_uri_with_slot_number_query_param(job_uri)
        response = self.get_request(job_uri)
        if response['ret'] is False:
            if response.get('status') == 404:
                # Job not found -- assume 0%
                return {
                    "ret": True,
                    "percentComplete": 0,
                    "operationStatus": "Not Available",
                    "operationStatusId": 1,
                    "operationHealth": None,
                    "operationHealthId": None,
                    "details": "Job does not exist.",
                    "jobExists": False
                }
            else:
                return response
        details = response["data"]["Status"].get("Details")
        if isinstance(details, str):
            details = [details]
        health_list = response["data"]["Status"]["Health"]
        return_value = {
            "ret": True,
            "percentComplete": response["data"]["PercentComplete"],
            "operationStatus": response["data"]["Status"]["State"]["Name"],
            "operationStatusId": response["data"]["Status"]["State"]["ID"],
            "operationHealth": health_list[0]["Name"] if len(health_list) > 0 else None,
            "operationHealthId": health_list[0]["ID"] if len(health_list) > 0 else None,
            "details": details,
            "jobExists": True
        }
        return return_value

    def delete_job(self, job_uri):
        """Delete the OCAPI job referenced by the specified job_uri."""
        job_uri = self.get_uri_with_slot_number_query_param(job_uri)
        # We have to do a GET to obtain the Etag.  It's required on the DELETE.
        response = self.get_request(job_uri)

        if response['ret'] is True:
            if 'etag' not in response['headers']:
                return {'ret': False, 'msg': 'Etag not found in response.'}
            else:
                etag = response['headers']['etag']

            if response['data']['PercentComplete'] != 100:
                return {
                    'ret': False,
                    'changed': False,
                    'msg': 'Cannot delete job because it is in progress.'
                }

        if response['ret'] is False:
            if response['status'] == 404:
                return {
                    'ret': True,
                    'changed': False,
                    'msg': 'Job already deleted.'
                }
            return response
        if self.module.check_mode:
            return {
                'ret': True,
                'changed': True,
                'msg': 'Update not performed in check mode.'
            }

        # Do the DELETE (unless we are in check mode)
        response = self.delete_request(job_uri, etag)
        if response['ret'] is False:
            if response['status'] == 404:
                return {
                    'ret': True,
                    'changed': False
                }
            elif response['status'] == 409:
                return {
                    'ret': False,
                    'changed': False,
                    'msg': 'Cannot delete job because it is in progress.'
                }
            return response
        return {
            'ret': True,
            'changed': True
        }
Remote management modules for OCAPI-based devices. (#5754) * Remote management modules for OCAPI-based devices. Open Composable API (OCAPI) is a REST-based API designed for data center composability. For more information, see https://www.opencompute.org/documents/open-composable-api-for-ocp-2019-06-24-pdf This PR introduces ocapi_command and ocapi_info modules. These are based on the existing redfish_command and redfish_info modules and follow similar patterns. This initial implementation includes support for the folowing operations: - Indicator LED toggling - Power state toggling - Enclosure reset (reboot) - Firmware upload - Firmware update - Firmware activate - Job deletion - Job status These modules have been tested against Western Digital OpenFlex(tm) Data24 storage enclosures. API reference is at https://documents.westerndigital.com/content/dam/doc-library/en_us/assets/public/western-digital/product/platforms/openflex/reference-architecture-open-composable-api.pdf * Fix licensing issue for ocapi_utils.py * PR Feedback * Apply suggestions from code review Co-authored-by: Felix Fontein <felix@fontein.de> * Update plugins/module_utils/ocapi_utils.py Co-authored-by: Felix Fontein <felix@fontein.de> * Update plugins/modules/ocapi_info.py Co-authored-by: Felix Fontein <felix@fontein.de> * Apply suggestions from code review Co-authored-by: Felix Fontein <felix@fontein.de> * PR Feedback Use six module for urlparse * Apply suggestions from code review Documentation fixes. Co-authored-by: Felix Fontein <felix@fontein.de> * Fix sanity test line too long error. Co-authored-by: Felix Fontein <felix@fontein.de> 2023-01-22 17:10:36 +01:00			`# -- coding: utf-8 --`
			`# Copyright (c) 2022 Western Digital Corporation`
			`# GNU General Public License v3.0+ (see LICENSE or https://www.gnu.org/licenses/gpl-3.0.txt)`
			`# GNU General Public License v3.0+ (see LICENSES/GPL-3.0-or-later.txt or https://www.gnu.org/licenses/gpl-3.0.txt)`
			`# SPDX-License-Identifier: GPL-3.0-or-later`

			`from __future__ import absolute_import, division, print_function`
			`__metaclass__ = type`

			`import json`
			`import os`
			`import uuid`

			`from ansible.module_utils.urls import open_url`
			`from ansible.module_utils.common.text.converters import to_native`
			`from ansible.module_utils.common.text.converters import to_text`
			`from ansible.module_utils.six.moves.urllib.error import URLError, HTTPError`
			`from ansible.module_utils.six.moves.urllib.parse import urlparse`


			`GET_HEADERS = {'accept': 'application/json'}`
			`PUT_HEADERS = {'content-type': 'application/json', 'accept': 'application/json'}`
			`POST_HEADERS = {'content-type': 'application/json', 'accept': 'application/json'}`
			`DELETE_HEADERS = {'accept': 'application/json'}`

			`HEALTH_OK = 5`


			`class OcapiUtils(object):`

			`def __init__(self, creds, base_uri, proxy_slot_number, timeout, module):`
			`self.root_uri = base_uri`
			`self.proxy_slot_number = proxy_slot_number`
			`self.creds = creds`
			`self.timeout = timeout`
			`self.module = module`

			`def _auth_params(self):`
			`"""`
			`Return tuple of required authentication params based on the username and password.`

			`:return: tuple of username, password`
			`"""`
			`username = self.creds['user']`
			`password = self.creds['pswd']`
			`force_basic_auth = True`
			`return username, password, force_basic_auth`

			`def get_request(self, uri):`
			`req_headers = dict(GET_HEADERS)`
			`username, password, basic_auth = self._auth_params()`
			`try:`
			`resp = open_url(uri, method="GET", headers=req_headers,`
			`url_username=username, url_password=password,`
			`force_basic_auth=basic_auth, validate_certs=False,`
			`follow_redirects='all',`
			`use_proxy=True, timeout=self.timeout)`
			`data = json.loads(to_native(resp.read()))`
			`headers = dict((k.lower(), v) for (k, v) in resp.info().items())`
			`except HTTPError as e:`
			`return {'ret': False,`
			`'msg': "HTTP Error %s on GET request to '%s'"`
			`% (e.code, uri),`
			`'status': e.code}`
			`except URLError as e:`
			`return {'ret': False, 'msg': "URL Error on GET request to '%s': '%s'"`
			`% (uri, e.reason)}`
			`# Almost all errors should be caught above, but just in case`
			`except Exception as e:`
			`return {'ret': False,`
			`'msg': "Failed GET request to '%s': '%s'" % (uri, to_text(e))}`
			`return {'ret': True, 'data': data, 'headers': headers}`

			`def delete_request(self, uri, etag=None):`
			`req_headers = dict(DELETE_HEADERS)`
			`if etag is not None:`
			`req_headers['If-Match'] = etag`
			`username, password, basic_auth = self._auth_params()`
			`try:`
			`resp = open_url(uri, method="DELETE", headers=req_headers,`
			`url_username=username, url_password=password,`
			`force_basic_auth=basic_auth, validate_certs=False,`
			`follow_redirects='all',`
			`use_proxy=True, timeout=self.timeout)`
			`if resp.status != 204:`
			`data = json.loads(to_native(resp.read()))`
			`else:`
			`data = ""`
			`headers = dict((k.lower(), v) for (k, v) in resp.info().items())`
			`except HTTPError as e:`
			`return {'ret': False,`
			`'msg': "HTTP Error %s on DELETE request to '%s'"`
			`% (e.code, uri),`
			`'status': e.code}`
			`except URLError as e:`
			`return {'ret': False, 'msg': "URL Error on DELETE request to '%s': '%s'"`
			`% (uri, e.reason)}`
			`# Almost all errors should be caught above, but just in case`
			`except Exception as e:`
			`return {'ret': False,`
			`'msg': "Failed DELETE request to '%s': '%s'" % (uri, to_text(e))}`
			`return {'ret': True, 'data': data, 'headers': headers}`

			`def put_request(self, uri, payload, etag=None):`
			`req_headers = dict(PUT_HEADERS)`
			`if etag is not None:`
			`req_headers['If-Match'] = etag`
			`username, password, basic_auth = self._auth_params()`
			`try:`
			`resp = open_url(uri, data=json.dumps(payload),`
			`headers=req_headers, method="PUT",`
			`url_username=username, url_password=password,`
			`force_basic_auth=basic_auth, validate_certs=False,`
			`follow_redirects='all',`
			`use_proxy=True, timeout=self.timeout)`
			`headers = dict((k.lower(), v) for (k, v) in resp.info().items())`
			`except HTTPError as e:`
			`return {'ret': False,`
			`'msg': "HTTP Error %s on PUT request to '%s'"`
			`% (e.code, uri),`
			`'status': e.code}`
			`except URLError as e:`
			`return {'ret': False, 'msg': "URL Error on PUT request to '%s': '%s'"`
			`% (uri, e.reason)}`
			`# Almost all errors should be caught above, but just in case`
			`except Exception as e:`
			`return {'ret': False,`
			`'msg': "Failed PUT request to '%s': '%s'" % (uri, to_text(e))}`
			`return {'ret': True, 'headers': headers, 'resp': resp}`

			`def post_request(self, uri, payload, content_type="application/json", timeout=None):`
			`req_headers = dict(POST_HEADERS)`
			`if content_type != "application/json":`
			`req_headers["content-type"] = content_type`
			`username, password, basic_auth = self._auth_params()`
			`if content_type == "application/json":`
			`request_data = json.dumps(payload)`
			`else:`
			`request_data = payload`
			`try:`
			`resp = open_url(uri, data=request_data,`
			`headers=req_headers, method="POST",`
			`url_username=username, url_password=password,`
			`force_basic_auth=basic_auth, validate_certs=False,`
			`follow_redirects='all',`
			`use_proxy=True, timeout=self.timeout if timeout is None else timeout)`
			`headers = dict((k.lower(), v) for (k, v) in resp.info().items())`
			`except HTTPError as e:`
			`return {'ret': False,`
			`'msg': "HTTP Error %s on POST request to '%s'"`
			`% (e.code, uri),`
			`'status': e.code}`
			`except URLError as e:`
			`return {'ret': False, 'msg': "URL Error on POST request to '%s': '%s'"`
			`% (uri, e.reason)}`
			`# Almost all errors should be caught above, but just in case`
			`except Exception as e:`
			`return {'ret': False,`
			`'msg': "Failed POST request to '%s': '%s'" % (uri, to_text(e))}`
			`return {'ret': True, 'headers': headers, 'resp': resp}`

			`def get_uri_with_slot_number_query_param(self, uri):`
			`"""Return the URI with proxy slot number added as a query param, if there is one.`

			`If a proxy slot number is provided, to access it, we must append it as a query parameter.`
			`This method returns the given URI with the slotnumber query param added, if there is one.`
			`If there is not a proxy slot number, it just returns the URI as it was passed in.`
			`"""`
			`if self.proxy_slot_number is not None:`
			`parsed_url = urlparse(uri)`
			`return parsed_url._replace(query="slotnumber=" + str(self.proxy_slot_number)).geturl()`
			`else:`
			`return uri`

			`def manage_system_power(self, command):`
			`"""Process a command to manage the system power.`

			`:param str command: The Ansible command being processed.`
			`"""`
			`if command == "PowerGracefulRestart":`
			`resource_uri = self.root_uri`
			`resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)`

			`# Get the resource so that we have the Etag`
			`response = self.get_request(resource_uri)`
			`if 'etag' not in response['headers']:`
			`return {'ret': False, 'msg': 'Etag not found in response.'}`
			`etag = response['headers']['etag']`
			`if response['ret'] is False:`
			`return response`

			`# Issue the PUT to do the reboot (unless we are in check mode)`
			`if self.module.check_mode:`
			`return {`
			`'ret': True,`
			`'changed': True,`
			`'msg': 'Update not performed in check mode.'`
			`}`
			`payload = {'Reboot': True}`
			`response = self.put_request(resource_uri, payload, etag)`
			`if response['ret'] is False:`
			`return response`
			`elif command.startswith("PowerMode"):`
			`return self.manage_power_mode(command)`
			`else:`
			`return {'ret': False, 'msg': 'Invalid command: ' + command}`

			`return {'ret': True}`

			`def manage_chassis_indicator_led(self, command):`
			`"""Process a command to manage the chassis indicator LED.`

			`:param string command: The Ansible command being processed.`
			`"""`
			`return self.manage_indicator_led(command, self.root_uri)`

			`def manage_indicator_led(self, command, resource_uri=None):`
			`"""Process a command to manage an indicator LED.`

			`:param string command: The Ansible command being processed.`
			`:param string resource_uri: URI of the resource whose indicator LED is being managed.`
			`"""`
			`key = "IndicatorLED"`
			`if resource_uri is None:`
			`resource_uri = self.root_uri`
			`resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)`

			`payloads = {`
			`'IndicatorLedOn': {`
			`'ID': 2`
			`},`
			`'IndicatorLedOff': {`
			`'ID': 4`
			`}`
			`}`

			`response = self.get_request(resource_uri)`
			`if 'etag' not in response['headers']:`
			`return {'ret': False, 'msg': 'Etag not found in response.'}`
			`etag = response['headers']['etag']`
			`if response['ret'] is False:`
			`return response`
			`data = response['data']`
			`if key not in data:`
			`return {'ret': False, 'msg': "Key %s not found" % key}`
			`if 'ID' not in data[key]:`
			`return {'ret': False, 'msg': 'IndicatorLED for resource has no ID.'}`

			`if command in payloads.keys():`
			`# See if the LED is already set as requested.`
			`current_led_status = data[key]['ID']`
			`if current_led_status == payloads[command]['ID']:`
			`return {'ret': True, 'changed': False}`

			`# Set the LED (unless we are in check mode)`
			`if self.module.check_mode:`
			`return {`
			`'ret': True,`
			`'changed': True,`
			`'msg': 'Update not performed in check mode.'`
			`}`
			`payload = {'IndicatorLED': payloads[command]}`
			`response = self.put_request(resource_uri, payload, etag)`
			`if response['ret'] is False:`
			`return response`
			`else:`
			`return {'ret': False, 'msg': 'Invalid command'}`

			`return {'ret': True}`

			`def manage_power_mode(self, command):`
			`key = "PowerState"`
			`resource_uri = self.get_uri_with_slot_number_query_param(self.root_uri)`

			`payloads = {`
			`"PowerModeNormal": 2,`
			`"PowerModeLow": 4`
			`}`

			`response = self.get_request(resource_uri)`
			`if 'etag' not in response['headers']:`
			`return {'ret': False, 'msg': 'Etag not found in response.'}`
			`etag = response['headers']['etag']`
			`if response['ret'] is False:`
			`return response`
			`data = response['data']`
			`if key not in data:`
			`return {'ret': False, 'msg': "Key %s not found" % key}`
			`if 'ID' not in data[key]:`
			`return {'ret': False, 'msg': 'PowerState for resource has no ID.'}`

			`if command in payloads.keys():`
			`# See if the PowerState is already set as requested.`
			`current_power_state = data[key]['ID']`
			`if current_power_state == payloads[command]:`
			`return {'ret': True, 'changed': False}`

			`# Set the Power State (unless we are in check mode)`
			`if self.module.check_mode:`
			`return {`
			`'ret': True,`
			`'changed': True,`
			`'msg': 'Update not performed in check mode.'`
			`}`
			`payload = {'PowerState': {"ID": payloads[command]}}`
			`response = self.put_request(resource_uri, payload, etag)`
			`if response['ret'] is False:`
			`return response`
			`else:`
			`return {'ret': False, 'msg': 'Invalid command: ' + command}`

			`return {'ret': True}`

			`def prepare_multipart_firmware_upload(self, filename):`
			`"""Prepare a multipart/form-data body for OCAPI firmware upload.`

			`:arg filename: The name of the file to upload.`
			:returns: tuple of (content_type, body) where ``content_type`` is
			the ``multipart/form-data`` ``Content-Type`` header including
			``boundary`` and ``body`` is the prepared bytestring body

			`Prepares the body to include "FirmwareFile" field with the contents of the file.`
			`Because some OCAPI targets do not support Base-64 encoding for multipart/form-data,`
			`this method sends the file as binary.`
			`"""`
			`boundary = str(uuid.uuid4()) # Generate a random boundary`
			`body = "--" + boundary + '\r\n'`
			`body += 'Content-Disposition: form-data; name="FirmwareFile"; filename="%s"\r\n' % to_native(os.path.basename(filename))`
			`body += 'Content-Type: application/octet-stream\r\n\r\n'`
			`body_bytes = bytearray(body, 'utf-8')`
			`with open(filename, 'rb') as f:`
			`body_bytes += f.read()`
			`body_bytes += bytearray("\r\n--%s--" % boundary, 'utf-8')`
			`return ("multipart/form-data; boundary=%s" % boundary,`
			`body_bytes)`

			`def upload_firmware_image(self, update_image_path):`
			`"""Perform Firmware Upload to the OCAPI storage device.`

			`:param str update_image_path: The path/filename of the firmware image, on the local filesystem.`
			`"""`
			`if not (os.path.exists(update_image_path) and os.path.isfile(update_image_path)):`
			`return {'ret': False, 'msg': 'File does not exist.'}`
			`url = self.root_uri + "OperatingSystem"`
			`url = self.get_uri_with_slot_number_query_param(url)`
			`content_type, b_form_data = self.prepare_multipart_firmware_upload(update_image_path)`

			`# Post the firmware (unless we are in check mode)`
			`if self.module.check_mode:`
			`return {`
			`'ret': True,`
			`'changed': True,`
			`'msg': 'Update not performed in check mode.'`
			`}`
			`result = self.post_request(url, b_form_data, content_type=content_type, timeout=300)`
			`if result['ret'] is False:`
			`return result`
			`return {'ret': True}`

			`def update_firmware_image(self):`
			`"""Perform a Firmware Update on the OCAPI storage device."""`
			`resource_uri = self.root_uri`
			`resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)`
			`# We have to do a GET to obtain the Etag. It's required on the PUT.`
			`response = self.get_request(resource_uri)`
			`if response['ret'] is False:`
			`return response`
			`if 'etag' not in response['headers']:`
			`return {'ret': False, 'msg': 'Etag not found in response.'}`
			`etag = response['headers']['etag']`

			`# Issue the PUT (unless we are in check mode)`
			`if self.module.check_mode:`
			`return {`
			`'ret': True,`
			`'changed': True,`
			`'msg': 'Update not performed in check mode.'`
			`}`
			`payload = {'FirmwareUpdate': True}`
			`response = self.put_request(resource_uri, payload, etag)`
			`if response['ret'] is False:`
			`return response`

			`return {'ret': True, 'jobUri': response["headers"]["location"]}`

			`def activate_firmware_image(self):`
			`"""Perform a Firmware Activate on the OCAPI storage device."""`
			`resource_uri = self.root_uri`
			`resource_uri = self.get_uri_with_slot_number_query_param(resource_uri)`
			`# We have to do a GET to obtain the Etag. It's required on the PUT.`
			`response = self.get_request(resource_uri)`
			`if 'etag' not in response['headers']:`
			`return {'ret': False, 'msg': 'Etag not found in response.'}`
			`etag = response['headers']['etag']`
			`if response['ret'] is False:`
			`return response`

			`# Issue the PUT (unless we are in check mode)`
			`if self.module.check_mode:`
			`return {`
			`'ret': True,`
			`'changed': True,`
			`'msg': 'Update not performed in check mode.'`
			`}`
			`payload = {'FirmwareActivate': True}`
			`response = self.put_request(resource_uri, payload, etag)`
			`if response['ret'] is False:`
			`return response`

			`return {'ret': True, 'jobUri': response["headers"]["location"]}`

			`def get_job_status(self, job_uri):`
			`"""Get the status of a job.`

			`:param str job_uri: The URI of the job's status monitor.`
			`"""`
			`job_uri = self.get_uri_with_slot_number_query_param(job_uri)`
			`response = self.get_request(job_uri)`
			`if response['ret'] is False:`
			`if response.get('status') == 404:`
			`# Job not found -- assume 0%`
			`return {`
			`"ret": True,`
			`"percentComplete": 0,`
			`"operationStatus": "Not Available",`
			`"operationStatusId": 1,`
			`"operationHealth": None,`
			`"operationHealthId": None,`
			`"details": "Job does not exist.",`
			`"jobExists": False`
			`}`
			`else:`
			`return response`
			`details = response["data"]["Status"].get("Details")`
Use isinstance() instead of type() (#7501) * Replace type comparisons with isinstance() checks. * Add changelog. 2023-11-08 13:20:19 +01:00			`if isinstance(details, str):`
Remote management modules for OCAPI-based devices. (#5754) * Remote management modules for OCAPI-based devices. Open Composable API (OCAPI) is a REST-based API designed for data center composability. For more information, see https://www.opencompute.org/documents/open-composable-api-for-ocp-2019-06-24-pdf This PR introduces ocapi_command and ocapi_info modules. These are based on the existing redfish_command and redfish_info modules and follow similar patterns. This initial implementation includes support for the folowing operations: - Indicator LED toggling - Power state toggling - Enclosure reset (reboot) - Firmware upload - Firmware update - Firmware activate - Job deletion - Job status These modules have been tested against Western Digital OpenFlex(tm) Data24 storage enclosures. API reference is at https://documents.westerndigital.com/content/dam/doc-library/en_us/assets/public/western-digital/product/platforms/openflex/reference-architecture-open-composable-api.pdf * Fix licensing issue for ocapi_utils.py * PR Feedback * Apply suggestions from code review Co-authored-by: Felix Fontein <felix@fontein.de> * Update plugins/module_utils/ocapi_utils.py Co-authored-by: Felix Fontein <felix@fontein.de> * Update plugins/modules/ocapi_info.py Co-authored-by: Felix Fontein <felix@fontein.de> * Apply suggestions from code review Co-authored-by: Felix Fontein <felix@fontein.de> * PR Feedback Use six module for urlparse * Apply suggestions from code review Documentation fixes. Co-authored-by: Felix Fontein <felix@fontein.de> * Fix sanity test line too long error. Co-authored-by: Felix Fontein <felix@fontein.de> 2023-01-22 17:10:36 +01:00			`details = [details]`
			`health_list = response["data"]["Status"]["Health"]`
			`return_value = {`
			`"ret": True,`
			`"percentComplete": response["data"]["PercentComplete"],`
			`"operationStatus": response["data"]["Status"]["State"]["Name"],`
			`"operationStatusId": response["data"]["Status"]["State"]["ID"],`
			`"operationHealth": health_list[0]["Name"] if len(health_list) > 0 else None,`
			`"operationHealthId": health_list[0]["ID"] if len(health_list) > 0 else None,`
			`"details": details,`
			`"jobExists": True`
			`}`
			`return return_value`

			`def delete_job(self, job_uri):`
			`"""Delete the OCAPI job referenced by the specified job_uri."""`
			`job_uri = self.get_uri_with_slot_number_query_param(job_uri)`
			`# We have to do a GET to obtain the Etag. It's required on the DELETE.`
			`response = self.get_request(job_uri)`

			`if response['ret'] is True:`
			`if 'etag' not in response['headers']:`
			`return {'ret': False, 'msg': 'Etag not found in response.'}`
			`else:`
			`etag = response['headers']['etag']`

			`if response['data']['PercentComplete'] != 100:`
			`return {`
			`'ret': False,`
			`'changed': False,`
			`'msg': 'Cannot delete job because it is in progress.'`
			`}`

			`if response['ret'] is False:`
			`if response['status'] == 404:`
			`return {`
			`'ret': True,`
			`'changed': False,`
			`'msg': 'Job already deleted.'`
			`}`
			`return response`
			`if self.module.check_mode:`
			`return {`
			`'ret': True,`
			`'changed': True,`
			`'msg': 'Update not performed in check mode.'`
			`}`

			`# Do the DELETE (unless we are in check mode)`
			`response = self.delete_request(job_uri, etag)`
			`if response['ret'] is False:`
			`if response['status'] == 404:`
			`return {`
			`'ret': True,`
			`'changed': False`
			`}`
			`elif response['status'] == 409:`
			`return {`
			`'ret': False,`
			`'changed': False,`
			`'msg': 'Cannot delete job because it is in progress.'`
			`}`
			`return response`
			`return {`
			`'ret': True,`
			`'changed': True`
			`}`