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nutanix_vm_cpu_ready.py
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nutanix_vm_cpu_ready.py
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#!/usr/bin/env python
"""nutanix_vm_cpu_ready - Uses Nutanix REST API to get summary of performance stats.
Requires requests
pip install requests
"""
import json
import time
import operator
import requests
import logging.config
from credentials import NUTANIX_USER # Login info now stored in credentials.py
from credentials import NUTANIX_PASSWORD # Login info now stored in credentials.py
__author__ = '[email protected] (Scott Vintinner)'
# =================================SETTINGS======================================
NUTANIX_URL = "https://pri-vdi:9440/PrismGateway/services/rest/v1/vms/"
# Note that I'm using a private API call from Nutanix to optimize data retrieval.
# It might not work in future versions.
NUTANIX_PRIVATE_URL = "https://pri-vdi:9440/PrismGateway/services/rest/v1/utils/entities"
SAMPLE_INTERVAL = 60
MAX_DATAPOINTS = 30
MAX_VM_RESULTS = 20 # Number of VMs to get data (should match html file)
EXCLUDE_VM = [] # VMs with any of the items in this list in their
# name will be excluded from results (ex: "NTNX-123")
# ===============================================================================
class MonitorJSON:
"""This is a simple class passed to Monitor threads so we can access the current JSON data in that thread"""
def __init__(self):
self.json = None
self.session = None # Will store the connection object for vSphere
self.full_update_time = 0
self.all_vms = []
def find_by_vm_id(self, vm_id, vm_name='UNKNOWN'):
for vm in self.all_vms:
if vm.vm_id == vm_id:
return vm
# if not found, create one and return it instead
self.all_vms.append(VMwareVM(vm_id, vm_name))
return self.all_vms[-1]
def remove_old_vms(self):
"""Every hour we check for VMs that aren't getting updated and remove them from our list"""
for vm in self.all_vms:
if (time.time() - vm.last_updated) > 3600:
self.all_vms.remove(vm)
def reset(self):
self.session = None
self.full_update_time = 0
self.all_vms = []
self.json = None
class VMwareVM:
"""Class to contain VM specific data"""
def __init__(self, vm_id, vm_name):
self.name = vm_name
self.vm_id = vm_id
self.cpu = []
self.ready = []
self.relative_weight = 0.0
self.last_updated = 0
def update_relative_weight(self):
"""The relative weight is used to determine how much we want to see the data of this VM."""
self.relative_weight = 1
# Add up all of the historical counter datapoints (higher counter = more weight)
for i in self.ready:
self.relative_weight += i
class NutanixVMRequestException(Exception):
pass
def generate_json(monitor):
"""
This function will connect to the Nutanix cluster and retrieve performance data, which
will be stored in json format in the json property.
Note that the /vms/ API returns all of the VMs with all of the data. As of now, it doesn't have
a way to select which properties to return, so we just get all of them. I decided that although this was
not efficient, it is still better than requesting /vms/{vmid}/stat separately for each VM.
"""
logger = logging.getLogger("nutanix_vm_cpu_ready")
# Check if there is a working session and create a new one if it is not working
if monitor.session is None:
logger.debug("No existing REST API session, creating a new one.")
# Create Session object that will allow us to issue commands without having to login each time
monitor.session = requests.Session()
monitor.session.headers.update({'content-type': 'application/json'})
monitor.session.auth = (NUTANIX_USER, NUTANIX_PASSWORD)
# The first run and every hour, remove old VMs and do a full refresh on the VMs list
if time.time() - monitor.full_update_time > 3600:
# Remove old VMs
if monitor.full_update_time != 0:
monitor.remove_old_vms()
try: # Try getting the vm data
logger.debug("Getting: " + NUTANIX_URL)
parameters = {'projection': 'BASIC_INFO', # Only grab basic data, not all stats
'filterCriteria': 'power_state==on'} # Only grab powered_on vms
r = monitor.session.get(NUTANIX_URL, params=parameters, verify=False)
if r.status_code != 200:
raise NutanixVMRequestException("Request error status: " + str(r.status_code) + " " + r.reason)
vm_basic_info = r.json() # Read in data as JSON and save to our persistant monitor
logger.debug("Retrieved BASIC_INFO data for " + str(len(vm_basic_info["entities"])) + " VMs")
# Create VM objects for each VM and append to our array
for entity in vm_basic_info["entities"]:
vm_name = entity["vmName"]
# Exclude any items by our list of search terms EXCLUDE_VM
if any(substring in vm_name for substring in EXCLUDE_VM):
logger.debug("Excluding: " + vm_name)
continue
# We're only interested in the last part of the entity vmID
# ex: 00053d1a-c9d5-958b-0000-00000000dfb7::50274c0d-5e04-3442-b47b-1c35698e3035
vm_id = ((entity["vmId"]).split('::'))[1]
# Check to see if this VM is in our list and create one if not found
monitor.find_by_vm_id(vm_id, vm_name)
# Set the next full_update_time so we'll do this again in 1 hour
monitor.full_update_time = time.time()
except Exception as error:
# If we couldn't connect, set the session object to None and try again next time
monitor.reset()
logger.error("Unable to get " + NUTANIX_URL + "/vms/ " + str(error))
monitor.json = json.dumps({"error": "Unable to get " + NUTANIX_URL + "/vms/" + str(error)}, indent=4)
return
try:
# Here we use the private API to grab only specific stats for all the VMs
logger.debug("Getting: " + NUTANIX_PRIVATE_URL)
parameters = {'entityType': 'vm',
'projection': 'hypervisor_cpu_usage_ppm,'
'hypervisor.cpu_ready_time_ppm',
'filterCriteria': 'power_state==on'}
r = monitor.session.get(NUTANIX_PRIVATE_URL, params=parameters, verify=False)
if r.status_code != 200:
raise NutanixVMRequestException("Request error status: " + str(r.status_code) + " " + r.reason)
all_vm_stats = r.json() # Read in data as JSON
logger.debug("Retrieved FULL data for " + str(len(all_vm_stats["entities"])) + " VMs")
except Exception as error:
# If we couldn't connect, set the session object to None and try again next time
monitor.reset()
logger.error("Unable to get " + NUTANIX_PRIVATE_URL + "/vms/" + " " + str(error))
monitor.json = json.dumps({"error": "Unable to get " + NUTANIX_PRIVATE_URL +
"/vms/" + " " + str(error)}, indent=4)
return
# Loop through all the VMs and update stats
for entity in all_vm_stats["entities"]:
# Get the VM object from our monitor list
vm = monitor.find_by_vm_id(entity["id"])
# Update the master stats with updated stats
cpu = round((int(entity["hypervisor_cpu_usage_ppm"]) / 10000), 1) # 1 decimal percent
# Check if CPU is 0 (computer was turned off) before checking the ready time (which won't exist)
if cpu == 0:
logger.debug("VM was turned off: " + vm.name)
vm.cpu = [0]
vm.ready = [0]
vm.relative_weight = 0.0
vm.last_updated = 0
else:
ready = round((int(entity["hypervisor.cpu_ready_time_ppm"]) / 10000), 1) # 1 decimal percent
# Store the list data in the VM object
if len(vm.cpu) == 0:
vm.cpu = [cpu]
vm.ready = [ready]
else:
vm.cpu.append(cpu)
vm.ready.append(ready)
# If we already have the max number of datapoints in our list, delete the oldest item
if len(vm.cpu) >= MAX_DATAPOINTS:
del (vm.cpu[0])
del (vm.ready[0])
# Update ranking value of this VM to determine if we should show it
vm.update_relative_weight()
# Note the time when we updated this VM's stats
vm.last_updated = time.time()
# ---------------------
# Sort by relative weight
monitor.all_vms.sort(key=operator.attrgetter('relative_weight'), reverse=True)
# If there are fewer VMs than we've asked it to display, fix the MAX_VM_RESULTS
global MAX_VM_RESULTS
if len(monitor.all_vms) < MAX_VM_RESULTS:
MAX_VM_RESULTS = len(monitor.all_vms)
# Once we have finished updating our VM data, grab the top MAX_VM_RESULTS and output the JSON
output_vms = []
for i in range(MAX_VM_RESULTS):
output_vms.append({
"name": monitor.all_vms[i].name,
"cpu": monitor.all_vms[i].cpu,
"ready": monitor.all_vms[i].ready,
})
monitor.json = json.dumps({"vms": output_vms})
logger.debug(monitor.json)
return monitor
# ======================================================
# __main__
#
# If you run this module by itself, it will instantiate
# the MonitorJSON class and start an infinite loop
# printing data.
# ======================================================
#
if __name__ == '__main__':
# When run by itself, we need to create the logger object (which is normally created in webserver.py)
try:
f = open("log_settings.json", 'rt')
log_config = json.load(f)
f.close()
logging.config.dictConfig(log_config)
except FileNotFoundError as e:
print("Log configuration file not found: " + str(e))
logging.basicConfig(level=logging.DEBUG) # fallback to basic settings
except json.decoder.JSONDecodeError as e:
print("Error parsing logger config file: " + str(e))
raise
test_monitor = MonitorJSON()
while True:
main_logger = logging.getLogger(__name__)
generate_json(test_monitor)
# Wait X seconds for the next iteration
main_logger.debug("Waiting for " + str(SAMPLE_INTERVAL) + " seconds")
time.sleep(SAMPLE_INTERVAL)