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vmware_view_vm.py
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vmware_view_vm.py
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#!/usr/bin/env python
"""vmware_vm - Exports JSON files with CPU and RAM data for VMware VMs
# Requires pysphere (VMware SDK for Python)
# https://code.google.com/p/pysphere/
# pip install -U pysphere
"""
from __future__ import division # So division of integers will result in float
__author__ = '[email protected] (Scott Vintinner)'
#=================================SETTINGS======================================
VCENTER_SERVER = "vcenter4.yourcompany.com"
VCENTER_USERNAME = "domain\\username"
VCENTER_PASSWORD = "********"
SAMPLE_INTERVAL = 60
MAX_DATAPOINTS = 30
MAX_VM_RESULTS = 23 # Number of VMs to get data (should match html file)
#===============================================================================
from pysphere import VIServer
# from pysphere import MORTypes, vi_performance_manager
import operator
import time
import json
server = VIServer() # Global variable to hold server connection (so we only login once, not each run).
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):
# Set the default empty values for all VMs
vms = []
for i in range(MAX_VM_RESULTS):
vms.append({"name": "----", "status": 0, "cpu": [0, 0, 0, 0]})
self.json = json.dumps({"vms": vms}, indent=4)
class VMwareVM:
all_vms = [] # Static array containing all hosts
def __init__(self, managed_object_reference, name):
self.managed_object_reference = managed_object_reference
self.name = name
self.cpu_datapoints = []
self.cpu_count = 1 # Number of vCPUs
self.host_cpu_mhz = 1.0 # Host CPU speed
self.heartbeat_status = 0
self.relative_weight = 0.0
self.__class__.all_vms.append(self) # Add self to static array
@classmethod
def find_by_name(cls, managed_object_reference, name):
for vm in cls.all_vms:
if vm.name == name:
return vm
# if not found, create one and return it instead
return VMwareVM(managed_object_reference, name)
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 cpu datapoints (higher CPU = more weight)
for i in self.cpu_datapoints:
self.relative_weight += i
# Multiply by the status value (so VMs with red alarm have most weight)
self.relative_weight *= (self.heartbeat_status * 10)
class VMwareHost:
"""In order to calculate CPU used percent for VMs, we need to know Mhz speed of Host. We update this list
to make our search faster"""
all_hosts = [] # Static array containing all hosts
def __init__(self, managed_object_reference, name, hz):
self.managed_object_reference = managed_object_reference
self.name = name
self.cpu_mhz = int(hz / (1000 * 1000)) # CPU speed
self.__class__.all_hosts.append(self) # Add self to static array
@classmethod
def get_mhz_by_host(cls, managed_object_reference):
for host in cls.all_hosts:
if host.managed_object_reference == managed_object_reference:
return host.cpu_mhz
def output_message(message):
"""Simple error handling to output message in JSON."""
print message
return json.dumps({"vms": [{"error": message}]}, indent=4)
def generate_json(vmware_monitor):
"""This is the main function. It will connect to the vCenter server, obtain perf data and output json"""
global server
if not server.is_connected():
try:
server.connect(VCENTER_SERVER, VCENTER_USERNAME, VCENTER_PASSWORD)
except Exception as error:
vmware_monitor.json = output_message("Error connecting to vCenter server" + error.message)
return
if server.is_connected():
# First we want to grab a list of all the hosts so we can determine the clock speed of the CPUs
# API: HostSystem - https://pubs.vmware.com/vsphere-51/index.jsp#com.vmware.wssdk.apiref.doc/vim.HostSystem.html
if len(VMwareVM.all_vms) == 0:
query = [
"name",
"hardware.cpuInfo.hz"
]
try:
# Fast way of getting Host properties
host_props = server._retrieve_properties_traversal(property_names=query, obj_type="HostSystem")
except Exception as error:
vmware_monitor.json = output_message("Error retrieving VMware Host data" + error.message)
return
else:
for prop_set in host_props:
host_mor = prop_set.Obj # managed_object_reference
host_hz = 0
host_name = "Error"
# The properties aren't always returned in the order you expect, so we have to match them up
for i in range(len(prop_set.PropSet)):
if prop_set.PropSet[i].Name == "name":
host_name = prop_set.PropSet[i].Val
elif prop_set.PropSet[i].Name == "hardware.cpuInfo.hz":
host_hz = prop_set.PropSet[i].Val
# Create host object so we can find Mhz later (object is stored in class array all_hosts)
VMwareHost(host_mor, host_name, host_hz)
# API: VirtualMachine - https://pubs.vmware.com/vsphere-50/index.jsp#com.vmware.wssdk.apiref.doc_50/vim.VirtualMachine.html
# summary.overallStatus: general "health" value: gray, green, red, yellow
# summary.quickStats.overallCpuUsage: Amount of CPU actually granted to the VM in Mhz
# summary.quickStats.staticCpuEntitlement: Max CPU possible for the VM in Mhz
# summary.quickStats.guestMemoryUsage: Active memory usage of the VM in MB.
# summary.quickStats.staticMemoryEntitlement: Max CPU possible for the VM in MB
# config.hardware.numCPU: Number of virtual CPUs present in this virtual machine.
# runtime.host: The host that is responsible for running a virtual machine.
query = [
"name",
"summary.overallStatus",
"summary.quickStats.overallCpuUsage",
"config.hardware.numCPU", # This number is vCPU
"runtime.host"
]
try:
# Fast way of getting VM properties
props = server._retrieve_properties_traversal(property_names=query, obj_type="VirtualMachine")
except Exception as error:
vmware_monitor.json = output_message("Error retrieving VMware VM data" + error.message)
return
else:
for prop_set in props:
mor = prop_set.Obj # managed_object_reference
vm_name = "Error"
vm_status = 0
vm_cpu = 0
vm_cpu_count = 0
vm_host_mor = None
# The properties aren't always returned in the order you expect, so we have to match them up
for i in range(len(prop_set.PropSet)):
if prop_set.PropSet[i].Name == "name":
vm_name = prop_set.PropSet[i].Val
elif prop_set.PropSet[i].Name == "summary.overallStatus":
vm_status = prop_set.PropSet[i].Val
elif prop_set.PropSet[i].Name == "summary.quickStats.overallCpuUsage":
vm_cpu = prop_set.PropSet[i].Val
elif prop_set.PropSet[i].Name == "config.hardware.numCPU":
vm_cpu_count = prop_set.PropSet[i].Val
elif prop_set.PropSet[i].Name == "runtime.host":
vm_host_mor = prop_set.PropSet[i].Val
# Check to see if this VM is in our list or create one if not found
vm = VMwareVM.find_by_name(mor, vm_name)
if vm_status == "green":
vm.heartbeat_status = 1
elif vm_status == "yellow":
vm.heartbeat_status = 2
elif vm_status == "red":
vm.heartbeat_status = 3
else:
vm.heartbeat_status = 0
# Store the cpu data in the object
if len(vm.cpu_datapoints) == 0:
vm.cpu_datapoints = [vm_cpu]
else:
vm.cpu_datapoints.append(vm_cpu)
# If we already have the max number of datapoints in our list, delete the oldest item
if len(vm.cpu_datapoints) >= MAX_DATAPOINTS:
del(vm.cpu_datapoints[0])
vm.host_cpu_mhz = VMwareHost.get_mhz_by_host(vm_host_mor) # Get the host hz per CPU
vm.cpu_count = vm_cpu_count
# Update ranking value of this VM to determine if we should show it
vm.update_relative_weight()
# If a VM no longer exists, we should remove it from our all_vms list
for vm in VMwareVM.all_vms:
still_present = False
for prop_set in props:
vm_name = ""
for i in range(len(prop_set.PropSet)):
if prop_set.PropSet[i].Name == "name":
vm_name = prop_set.PropSet[i].Val
break
if vm_name == vm.name:
still_present = True
break
if not still_present:
VMwareVM.all_vms.remove(vm)
# Once we have finished updating our VM data, grab the top MAX_VM_RESULTS and output the JSON
# Sort by relative weight
VMwareVM.all_vms.sort(key=operator.attrgetter('relative_weight'), reverse=True)
vms = []
for i in range(MAX_VM_RESULTS):
vms.append({
"name": VMwareVM.all_vms[i].name,
"status": VMwareVM.all_vms[i].heartbeat_status,
"cpu": VMwareVM.all_vms[i].cpu_datapoints,
"cpu_count": VMwareVM.all_vms[i].cpu_count,
"host_cpu_mhz": VMwareVM.all_vms[i].host_cpu_mhz,
})
vmware_monitor.json = json.dumps({"vms": vms})
if __debug__:
print vmware_monitor.json
# If you run this module by itself, it will instantiate the MonitorJSON class and start an infinite loop printing data.
if __name__ == '__main__':
monitor = MonitorJSON()
while True:
generate_json(monitor)
# Wait X seconds for the next iteration
time.sleep(SAMPLE_INTERVAL)