mirror of
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415 lines
19 KiB
Python
Executable File
415 lines
19 KiB
Python
Executable File
#!/usr/local/bin/python3
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import re
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import requests
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import json
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import logging
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import argparse
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from time import sleep, gmtime, strftime
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# if you lack __init__.py in this directory this import will fail
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# This should be replaced with a module and added to dockerfile
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from LANforge.LFUtils import *
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from sta_connect2 import StaConnect2
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parser = argparse.ArgumentParser()
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parser.add_argument("--sdk-base-url", type=str, help="cloudsdk base url",
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default="https://wlan-portal-svc.cicd.lab.wlan.tip.build")
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parser.add_argument("--sdk-user-id", type=str, help="cloudsdk user id",
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default="support@example.com")
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parser.add_argument("--sdk-user-password", type=str, help="cloudsdk user password",
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default="support")
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parser.add_argument("--jfrog-base-url", type=str, help="jfrog base url",
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default="tip.jFrog.io/artifactory/tip-wlan-ap-firmware")
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parser.add_argument("--jfrog-user-id", type=str, help="jfrog user id",
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default="cicd_user")
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parser.add_argument("--jfrog-user-password", type=str, help="jfrog user password",
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default="password")
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parser.add_argument("--testrail-base-url", type=str, help="testrail base url",
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default="https://telecominfraproject.testrail.com")
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parser.add_argument("--testrail-project", type=str, help="testrail project name",
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default="opsfleet-wlan")
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parser.add_argument("--testrail-user-id", type=str, help="testrail user id",
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default="gleb@opsfleet.com")
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parser.add_argument("--testrail-user-password", type=str, help="testrail user password",
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default="password")
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parser.add_argument("--lanforge-ip-address", type=str, help="ip address of the lanforge gui",
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default="10.28.3.6")
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parser.add_argument("--lanforge-port-number", type=str, help="port of the lanforge gui",
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default="8080")
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parser.add_argument('--update-firmware', dest='update_firmware', action='store_true')
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parser.add_argument('--skip-update-firmware', dest='update_firmware', action='store_false')
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parser.set_defaults(update_firmware=True)
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args = parser.parse_args()
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logging.basicConfig(level=logging.DEBUG,
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format="%(asctime)s %(levelname)-8s %(message)s file:%(pathname)s line:%(lineno)d",
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datefmt="%m-%d %H:%M",
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filename="nightly_cicd_sanity.log",
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filemode="a")
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formatter = logging.Formatter("%(asctime)s %(levelname)-8s %(message)s")
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console = logging.StreamHandler()
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console.setLevel(logging.INFO)
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console.setFormatter(formatter)
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logging.getLogger().addHandler(console)
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logging.info("------------------------")
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logging.info("nightly sanity run start")
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# ap details, test data and test config
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with open("test_config.json") as json_file:
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TEST_DATA = json.load(json_file)
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TESTRAIL = {
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True: {
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"statusCode": 1, # status_id is 1 for Passed, 2 For Blocked, 4 for Retest, 5 for Failed
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"message": "success"
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},
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False: {
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"statusCode": 5,
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"message": "failure"
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}
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}
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# Class to interact with Testrail; better to replace this with pytest\nunit
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class TestRail_Client:
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def __init__(self):
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self.user = args.testrail_user_id
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self.password = args.testrail_user_password
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self.__url = f"{args.testrail_base_url}/index.php?/api/v2/"
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def send_get(self, uri, filepath=None):
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"""Issue a GET request (read) against the API.
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Args:
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uri: The API method to call including parameters, e.g. get_case/1.
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filepath: The path and file name for attachment download; used only
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for "get_attachment/:attachment_id".
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Returns:
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A dict containing the result of the request.
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"""
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return self.__send_request("GET", uri, filepath)
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def send_post(self, uri, data):
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"""Issue a POST request (write) against the API.
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Args:
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uri: The API method to call, including parameters, e.g. add_case/1.
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data: The data to submit as part of the request as a dict; strings
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must be UTF-8 encoded. If adding an attachment, must be the
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path to the file.
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Returns:
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A dict containing the result of the request.
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"""
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return self.__send_request("POST", uri, data)
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def __send_request(self, method, uri, data):
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url = self.__url + uri
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headers = {
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"Content-Type": "application/json"
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}
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logging.debug(f"Method: {method}; Url: {url}; Data: {data}")
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if method == "POST":
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if uri[:14] == "add_attachment": # add_attachment API method
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files = { "attachment": open(data, "rb") }
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response = requests.post(url, headers=headers, files=files, auth=(self.user, self.password))
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files["attachment"].close()
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else:
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payload = bytes(json.dumps(data), "utf-8")
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response = requests.post(url, headers=headers, data=payload, auth=(self.user, self.password))
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else:
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response = requests.get(url, headers=headers, auth=(self.user, self.password))
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logging.debug(f"headers: {headers}; response: {response.text}; response code: {response.status_code}")
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if response.status_code > 201:
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try:
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error = response.json()
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except: # response.content not formatted as JSON
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error = str(response.content)
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logging.info(f"TestRail API returned HTTP status code {response.status_code} with the following: ({error})")
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return
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else:
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logging.debug(uri[:15])
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if uri[:15] == "get_attachments": # Expecting file, not JSON
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try:
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logging.info (str(response.content))
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open(data, "wb").write(response.content)
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return (data)
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except:
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return ("Error saving attachment.")
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else:
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try:
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return response.json()
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except: # Nothing to return
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return {}
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def get_project_id(self, project_name):
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"Get the project ID using project name"
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projects = testrail.send_get("get_projects")
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logging.debug(projects)
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for project in projects:
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if project["name"] == project_name:
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return project["id"]
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def update_testrail(self, case_id, run_id, status_id, msg):
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logging.info(f"Update TestRail; result status: {status_id}; case id: {case_id}; run id: {run_id}")
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if run_id is not None:
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try:
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result = testrail.send_post(
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f"add_result_for_case/{run_id}/{case_id}",
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{ "status_id": status_id, "comment": msg }
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)
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logging.info(f"Updating TestRail result: {result}")
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except Exception as e:
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logging.info(f"Exception in update_testrail(): {e}")
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else:
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logging.info(f"Updated test result for case: {case_id} in test run: {run_id} with msg: {msg}")
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def create_testrun(self, name, case_ids, project_id):
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result = testrail.send_post(
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f"add_run/{project_id}",
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{"name": name, "case_ids": case_ids, "include_all": False}
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)
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logging.info(result)
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return result["id"]
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# Class for jFrog Interaction
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class jFrog_Client:
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def __init__(self):
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self.user = args.jfrog_user_id
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self.password = args.jfrog_user_password
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self.baseUrl = args.jfrog_base_url
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def get_latest_image(self, model):
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# todo handle auth errors
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logging.debug(f"searching for the latest firmware on url: {model}")
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response = requests.get(f"https://{self.baseUrl}/{model}/dev/", auth=(self.user, self.password))
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return re.findall('href="(.+pending.+).tar.gz"', response.text)[-1]
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def get_latest_image_url(self, model, latest_image):
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return f"https://{self.user}:{self.password}@{self.baseUrl}/{model}/dev/{latest_image}.tar.gz"
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# Class for CloudSDK Interaction via RestAPI
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class CloudSDK_Client:
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def __init__(self):
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self.baseUrl = args.sdk_base_url
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cloud_login_url = f"{self.baseUrl}/management/v1/oauth2/token"
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payload = {
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"userId": args.sdk_user_id,
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"password": args.sdk_user_password
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}
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headers = {
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"Content-Type": "application/json"
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}
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try:
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token_response = requests.post(cloud_login_url, headers=headers, data=json.dumps(payload))
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except requests.exceptions.RequestException as e:
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raise SystemExit(f"Exiting Script! Cloud not get bearer token for reason: {e}")
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token_data = token_response.json()
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self.headers = {
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"Authorization": f"Bearer {token_data['access_token']}"
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}
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def ap_firmware(self, customer_id, equipment_id):
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equip_fw_url = f"{self.baseUrl}/portal/status/forEquipment?customerId={customer_id}&equipmentId={equipment_id}&statusDataTypes="
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status_response = requests.get(equip_fw_url, headers=self.headers)
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logging.debug(status_response.json())
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return (status_response.json())[2]["details"]["reportedSwVersion"]
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def get_images(self, apModel):
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getFW_url = f"{self.baseUrl}/portal/firmware/version/byEquipmentType?equipmentType=AP&modelId={apModel}"
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status_response = requests.get(getFW_url, headers=self.headers)
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logging.debug(status_response.json())
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return([ version.get("versionName") for version in status_response.json()])
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def firwmare_upload(self, apModel, latest_image, fw_url):
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commit = latest_image.split("-")[-1]
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fw_upload_url = f"{self.baseUrl}/portal/firmware/version"
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payload = {
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"model_type": "FirmwareVersion",
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"id": 0,
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"equipmentType": "AP",
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"modelId": apModel,
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"versionName": latest_image,
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"description": "",
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"filename": fw_url,
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"commit": commit,
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"validationMethod": "MD5_CHECKSUM",
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"validationCode": "19494befa87eb6bb90a64fd515634263",
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"releaseDate": 1596192028877,
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"createdTimestamp": 0,
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"lastModifiedTimestamp": 0
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}
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self.headers["Content-Type"] = "application/json"
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response = requests.post(fw_upload_url, headers=self.headers, data=json.dumps(payload))
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self.headers.pop("Content-Type", None)
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logging.debug(response)
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return(response.json())
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def get_firmware_id(self, latest_ap_image):
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logging.debug(latest_ap_image)
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fw_id_url = f"{self.baseUrl}/portal/firmware/version/byName?firmwareVersionName={latest_ap_image}"
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response = requests.get(fw_id_url, headers=self.headers)
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fw_data = response.json()
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return fw_data["id"]
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def update_firmware(self, equipment_id, latest_firmware_id):
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url = f"{self.baseUrl}/portal/equipmentGateway/requestFirmwareUpdate?equipmentId={equipment_id}&firmwareVersionId={latest_firmware_id}"
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response = requests.post(url, headers=self.headers)
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logging.info(response.text)
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def set_ap_profile(self, equipment_id, test_profile_id):
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url = f"{self.baseUrl}/portal/equipment?equipmentId={equipment_id}"
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response = requests.get(url, headers=self.headers)
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logging.info(response)
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# Add Lab Profile ID to Equipment
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equipment_info = response.json()
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logging.debug(equipment_info)
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equipment_info["profileId"] = test_profile_id
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logging.debug(equipment_info)
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# Update AP Info with Required Profile ID
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url = f"{self.baseUrl}/portal/equipment"
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self.headers["Content-Type"] = "application/json"
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response = requests.put(url, headers=self.headers, data=json.dumps(equipment_info))
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self.headers.pop("Content-Type", None)
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logging.debug(response.text)
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# instantiate clients and configuration
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sdk: CloudSDK_Client = CloudSDK_Client()
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testrail: TestRail_Client = TestRail_Client()
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jFrog: jFrog_Client = jFrog_Client()
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# 1. Find Latest firmware on jFrog for each AP Model
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# 2. Find Available firmware on CloudSDK
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# 3. If Latest firmware not present, upload
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# 4. Update Firmware on each AP Model
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# 5. Run tests
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for model in TEST_DATA["ap_models"].keys():
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# Get latest firmware on jFrog and Cloud SDK
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latest_image = jFrog.get_latest_image(model)
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firmware_list_by_model = sdk.get_images(model)
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logging.info(f"Model: {model}; Latest firmware on jFrog: {latest_image}; Latest firmware on Cloud SDK: {firmware_list_by_model}")
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if latest_image in firmware_list_by_model:
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logging.info(f"Latest firmware {latest_image} present on CloudSDK!")
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TEST_DATA["ap_models"][model]["firmware"] = latest_image
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else:
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logging.info(f"Uploading {latest_image} firmware to CloudSDK")
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fw_url = jFrog.get_latest_image_url(model, latest_image)
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fw_upload_status = sdk.firwmare_upload(model, latest_image, fw_url)
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logging.info(f"Upload Complete. {latest_image}; firmware ID is {fw_upload_status['id']}")
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TEST_DATA["ap_models"][model]["firmware"] = latest_image
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# Get Current AP Firmware and upgrade
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ap_fw = sdk.ap_firmware(TEST_DATA["customer_id"], TEST_DATA["ap_models"][model]["id"])
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fw_model = ap_fw.partition("-")[0]
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latest_ap_image = TEST_DATA["ap_models"][fw_model]["firmware"]
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model_firmware_id = sdk.get_firmware_id(latest_ap_image)
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logging.info(f"Firmware: {ap_fw}; latest firmware ID is: {model_firmware_id}")
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if ap_fw == latest_ap_image and args.update_firmware:
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logging.info("Model does not require firmware upgrade, skipping sanity tests")
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else:
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if args.update_firmware:
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firmware_update_case = [2831]
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logging.info("Model requires firmware update, will update and sleep")
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sdk.update_firmware(TEST_DATA["ap_models"][model]["id"], model_firmware_id)
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sleep(300)
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else:
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firmware_update_case = []
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test_cases_data = {
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2832: { # 2.4 GHz Open
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"radio": "wiphy4",
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"station": ["sta2234"],
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"ssid_name": TEST_DATA["ap_models"][fw_model]["info"]["twoFourG_OPEN_SSID"],
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"ssid_psk": "BLANK",
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"security": "open"
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},
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2835: { # 2.4 GHz WPA2
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"radio": "wiphy4",
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"station": ["sta2237"],
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"ssid_name": TEST_DATA["ap_models"][fw_model]["info"]["twoFourG_WPA2_SSID"],
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"ssid_psk": TEST_DATA["ap_models"][fw_model]["info"]["twoFourG_WPA2_PSK"],
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"security": "wpa2"
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}
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# 2833: { # 5 GHz Open
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# "radio": "wiphy3",
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# "station": ["sta2235"],
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# "ssid_name": TEST_DATA["ap_models"][fw_model]["info"]["fiveG_OPEN_SSID"],
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# "ssid_psk": "BLANK",
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# "security": "open"
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# },
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# 2834: { # 5 GHz WPA2
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# "radio": "wiphy3",
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# "station": ["sta2236"],
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# "ssid_name": TEST_DATA["ap_models"][fw_model]["info"]["fiveG_WPA2_SSID"],
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# "ssid_psk": TEST_DATA["ap_models"][fw_model]["info"]["fiveG_WPA2_PSK"],
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# "security": "wpa2"
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# },
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# 2836: { # 5 GHz WPA
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# "radio": "wiphy3",
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# "station": ["sta2419"],
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# "ssid_name": TEST_DATA["ap_models"][fw_model]["info"]["fiveG_WPA_SSID"],
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# "ssid_psk": TEST_DATA["ap_models"][fw_model]["info"]["fiveG_WPA_PSK"],
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# "security": "wpa"
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# },
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# 2837: { # 2.4 GHz WPA
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# "radio": "wiphy0",
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# "station": ["sta2420"],
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# "ssid_name": TEST_DATA["ap_models"][fw_model]["info"]["twoFourG_WPA_SSID"],
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# "ssid_psk": TEST_DATA["ap_models"][fw_model]["info"]["twoFourG_WPA_PSK"],
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# "security": "wpa"
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# }
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}
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# Create Test Run
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test_run_name = f'Nightly_model_{fw_model}_firmware_{ap_fw}_{strftime("%Y-%m-%d", gmtime())}'
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testrail_project_id = testrail.get_project_id(project_name=args.testrail_project)
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runId = testrail.create_testrun(name=test_run_name, case_ids=( [*test_cases_data] + firmware_update_case ), project_id=testrail_project_id)
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logging.info(f"Testrail project id: {testrail_project_id}; run ID is: {runId}")
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# Check if upgrade worked
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if args.update_firmware:
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results = TESTRAIL[(sdk.ap_firmware(TEST_DATA["customer_id"], TEST_DATA["ap_models"][model]["id"]) == latest_ap_image)]
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testrail.update_testrail(case_id="2831", run_id=runId, status_id=results["statusCode"], msg=f"Upgrade {results['message']}")
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logging.info(f"Upgrade {results['statusCode']}")
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if not test_result:
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continue
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# Set Proper AP Profile
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test_profile_id = TEST_DATA["ap_models"][fw_model]["info"]["profile_id"]
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sdk.set_ap_profile(TEST_DATA["ap_models"][model]["id"], test_profile_id)
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logging.info(f"Test profile id: test_profile_id")
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# Run Client Single Connectivity Test Cases
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for testcase in test_cases_data.keys():
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logging.info(f"Test parameters are\n radio: {test_cases_data[testcase]['radio']}\n ssid_name: {test_cases_data[testcase]['ssid_name']}\n ssid_psk: {test_cases_data[testcase]['ssid_psk']}\n security: {test_cases_data[testcase]['security']}\n station: {test_cases_data[testcase]['station']}\n testcase: {testcase}\n runId: {runId}")
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staConnect = StaConnect2(args.lanforge_ip_address, args.lanforge_port_number, debug_ = False)
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staConnect.sta_mode = 0
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staConnect.upstream_resource = 1
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staConnect.upstream_port = "eth2"
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staConnect.radio = test_cases_data[testcase]["radio"]
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staConnect.resource = 1
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staConnect.dut_ssid = test_cases_data[testcase]["ssid_name"]
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staConnect.dut_passwd = test_cases_data[testcase]["ssid_psk"]
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staConnect.dut_security = test_cases_data[testcase]["security"]
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staConnect.station_names = test_cases_data[testcase]["station"]
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staConnect.runtime_secs = 30
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staConnect.cleanup_on_exit = True
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staConnect.setup()
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staConnect.start()
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logging.info(f"sleeping {staConnect.runtime_secs} seconds")
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sleep(staConnect.runtime_secs)
|
|
staConnect.stop()
|
|
staConnect.cleanup()
|
|
for result in staConnect.get_result_list():
|
|
logging.info(f"test result: {result}")
|
|
results = TESTRAIL[staConnect.passes()]
|
|
logging.info(f"Single client connection to {test_cases_data[testcase]['ssid_name']} successful. Test {results['message']}")
|
|
testrail.update_testrail(case_id=testcase, run_id=runId, status_id=results["statusCode"], msg="Client connectivity {results['message']}")
|
|
|
|
logging.info("----------------------")
|
|
logging.info("End of Sanity Test run")
|