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snmp_interface_2.py
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snmp_interface_2.py
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#!/usr/bin/env python
"""snmp_interface: module called to generate SNMP monitoring data formatted for use with StatusBoard iPad App
# How To Calculate Bandwidth Utilization Using SNMP
# http://www.cisco.com/en/US/tech/tk648/tk362/technologies_tech_note09186a008009496e.shtml
"""
from __future__ import division # So division of integers will result in float
from pysnmp.entity.rfc3413.oneliner import cmdgen
import time
import json
__author__ = '[email protected] (Scott Vintinner)'
# Simple HTTP Server for testing
# python -m SimpleHTTPServer 9000
#=================================SETTINGS======================================
MAX_DATAPOINTS = 30
SAMPLE_INTERVAL = 60
GRAPH_TITLE = "Bandwidth (Mbps)"
# Standard SNMP OIDs
# sysUpTime 1.3.6.1.2.1.1.3.0 (this is hundreds of a second)
# 64-bit counters because 32-bit defaults rollover too quickly
# ifHCInOctets 1.3.6.1.2.1.31.1.1.1.6.interfacenumber
# ifHCOutOctets 1.3.6.1.2.1.31.1.1.1.10.interfacenumber
# Enter the details for each SNMP counter.
# ip: This is the IP address or resolvable host name
# community: This is the SNMPv1 community that will grant access to read the OID (usually this is "public")
# oid: This is the SNMP OID interface counter we'll be measuring.
# uptime_oid: This is the SNMP OID for the device's uptime (so we know what the time was when we measured the counter)
# name: This is the name of the device as it will appear on the graph
DEVICES = (
{"ip": "cisco-rh-wan", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.6.3", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "RH RX"},
{"ip": "cisco-rh-wan", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.10.3", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "RH TX"},
{"ip": "cisco-tri-wan", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.6.2", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "TRI RX"},
{"ip": "cisco-tri-wan", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.10.2", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "TRI TX"},
{"ip": "cisco-clt-asa1", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.6.2", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "INET RX"},
{"ip": "cisco-clt-asa1", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.10.2", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "INET TX"},
{"ip": "cisco-clt-wan", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.6.3", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "CLT TX"},
{"ip": "cisco-clt-wan", "community": "public", "oid": "1.3.6.1.2.1.31.1.1.1.10.3", "uptime_oid": "1.3.6.1.2.1.1.3.0", "name": "CLT RX"}
)
#================================================================================
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 = output_message("Waiting " + str(SAMPLE_INTERVAL) + " seconds for first run", "")
class InterfaceDevice:
all_devices = [] # Static array containing all devices
def __init__(self, ip, community, oid, uptime_oid, name):
self.ip = ip
self.community = community
self.oid = oid
self.uptime_oid = uptime_oid
self.name = name
self.snmp_data = [] # Hold raw data
self.datapoints = [] # Holds pretty data
self.__class__.all_devices.append(self) # Add self to static array
class SNMPDatapoint:
def __init__(self, value, timeticks):
self.value = value
self.timeticks = timeticks
def get_snmp(device, community, snmp_oid, snmp_uptime_oid):
"""Returns the value of the specified snmp OID.
Also gets the uptime (TimeTicks) so we know exactly when the sample was taken."""
# Perform a synchronous SNMP GET
cmd_gen = cmdgen.CommandGenerator()
error_indication, error_status, error_index, var_binds = cmd_gen.getCmd(
cmdgen.CommunityData(community), cmdgen.UdpTransportTarget((device, 161)), snmp_oid, snmp_uptime_oid
)
snmp_value = None
snmp_error = None
snmp_uptime_value = None
if error_indication: # Check for SNMP errors
snmp_error = str(error_indication)
else:
if error_status:
snmp_error = error_status.prettyPrint()
else:
# varBinds are returned as SNMP objects, so convert to integers
snmp_value = int(var_binds[0][1])
snmp_uptime_value = int(var_binds[1][1])
return snmp_value, snmp_uptime_value, snmp_error
def calculate_bps(current_sample_octets, current_sample_time, historical_sample_octets, historical_sample_time):
"""Calculate the bits-per-second based on the octets and timeticks (hundreths of a second)."""
# When the SNMP counter reaches 18446744073709551615, it will rollover and reset to ZERO.
# If this happens, we want to make sure we don't output a negative bps
if current_sample_octets < historical_sample_octets:
# If we reset to 0, add the max value of the octets counter
current_sample_octets += 18446744073709551615
delta = current_sample_octets - historical_sample_octets
# SysUpTime is in TimeTicks (Hundreds of a second), so covert to seconds
seconds_between_samples = (current_sample_time - historical_sample_time) / 100.0
# Multiply octets by 8 to get bits
bps = (delta * 8) / seconds_between_samples
bps /= 1048576 # Convert to Mbps (use 1024 for Kbps)
bps = round(bps, 2)
return bps
def output_message(message, detail):
"""This function will output an error message formatted in JSON to display on the StatusBoard app"""
statusbar_output = {"graph": {"title": GRAPH_TITLE, "error": {"message": message, "detail": detail}}}
output = json.dumps(statusbar_output)
return output
def generate_json(snmp_monitor):
"""This function will take the device config and raw data (if any) from the snmp_monitor and output JSON data
formatted for the StatusBar iPad App"""
time_x_axis = time.strftime("%H:%M") # Use the same time value for all samples per iteration
statusbar_datasequences = []
snmp_error = None
if __debug__:
print "SNMP generate_json started: " + time_x_axis
# Create a list of InterfaceDevices using the contants provided above
if len(InterfaceDevice.all_devices) == 0:
for device in DEVICES:
InterfaceDevice(device["ip"], device["community"], device["oid"], device["uptime_oid"], device["name"])
# Loop through each device, update the SNMP data
for device in InterfaceDevice.all_devices:
# Get the SNMP data
try:
snmp_value, snmp_uptime_value, snmp_error = get_snmp(device.ip, device.community, device.oid, device.uptime_oid)
except Exception as error:
if not snmp_error:
snmp_error = error.message
if snmp_error:
break
else:
# Add the raw SNMP data to a list
if len(device.snmp_data) == 0: # first time through, initialize the list
device.snmp_data = [SNMPDatapoint(snmp_value, snmp_uptime_value)]
else:
device.snmp_data.append(SNMPDatapoint(snmp_value, snmp_uptime_value))
# If we already have the max number of datapoints in our list, delete the oldest item
if len(device.snmp_data) >= MAX_DATAPOINTS:
del(device.snmp_data[0])
# If we have at least 2 samples, calculate bps by comparing the last item with the second to last item
if len(device.snmp_data) > 1:
bps = calculate_bps(
device.snmp_data[-1].value,
device.snmp_data[-1].timeticks,
device.snmp_data[-2].value,
device.snmp_data[-2].timeticks
)
bps = round(bps, 2)
if len(device.datapoints) == 0:
device.datapoints = [{"title": time_x_axis, "value": bps}]
else:
device.datapoints.append({"title": time_x_axis, "value": bps})
# If we already have the max number of datapoints, delete the oldest item.
if len(device.datapoints) >= MAX_DATAPOINTS:
del(device.datapoints[0])
# Generate the data sequence
statusbar_datasequences.append({"title": device.name, "datapoints": device.datapoints})
# If this is the first run through, show Initializing on iPad
if snmp_error:
# If we ran into an SNMP error, go ahead and write out the JSON file with the error
snmp_monitor.json = output_message("Error retrieving SNMP data", snmp_error)
elif len(InterfaceDevice.all_devices[-1].snmp_data) <= 2:
snmp_monitor.json = output_message(
"Initializing bandwidth dataset: " +
str(SAMPLE_INTERVAL * (3 - len(InterfaceDevice.all_devices[-1].snmp_data))) +
" seconds...", ""
)
else:
# Generate JSON output and assign to snmp_monitor object (for return back to caller module)
statusbar_graph = {
"title": GRAPH_TITLE, "type": "line",
"refreshEveryNSeconds": SAMPLE_INTERVAL,
"datasequences": statusbar_datasequences
}
statusbar_type = {"graph": statusbar_graph}
snmp_monitor.json = json.dumps(statusbar_type)
if __debug__:
print snmp_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)