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#
# Asynchronous Command Generator
#
# Send SNMP GET requests using multiple independend SNMP engines
# with the following options:
#
# * with SNMPv1, community 'public' and
# with SNMPv2c, community 'public' and
# with SNMPv3, user 'usr-md5-des', MD5 auth and DES privacy
# * over IPv4/UDP and
# over IPv6/UDP
# * to an Agent at demo.snmplabs.com:161 and
# to an Agent at [::1]:161
# * for instances of SNMPv2-MIB::sysDescr.0 and
# SNMPv2-MIB::sysLocation.0 MIB objects
#
# Within this script we have a single asynchronous TransportDispatcher
# and a single UDP-based transport serving two independent SNMP engines.
# We use a single instance of AsyncCommandGenerator with each of
# SNMP Engines to comunicate GET command request to remote systems.
#
# When we receive a [response] message from remote system we use
# a custom message router to choose what of the two SNMP engines
# data packet should be handed over. The selection criteria we
# employ here is based on peer's UDP port number. Other selection
# criterias are also possible.
#
from pysnmp.entity.rfc3413.oneliner import cmdgen
from pysnmp.entity import engine
from pysnmp.carrier.asynsock.dispatch import AsynsockDispatcher
# List of targets in the followin format:
# ( ( authData, transportTarget, varNames ), ... )
targets = (
# 1-st target (SNMPv1 over IPv4/UDP)
( cmdgen.CommunityData('public', mpModel=0),
cmdgen.UdpTransportTarget(('demo.snmplabs.com', 161)),
( cmdgen.MibVariable('SNMPv2-MIB', 'sysDescr', 0),
cmdgen.MibVariable('SNMPv2-MIB', 'sysLocation', 0) ) ),
# 2-nd target (SNMPv2c over IPv4/UDP)
( cmdgen.CommunityData('public'),
cmdgen.UdpTransportTarget(('demo.snmplabs.com', 1161)),
( cmdgen.MibVariable('SNMPv2-MIB', 'sysDescr', 0),
cmdgen.MibVariable('SNMPv2-MIB', 'sysLocation', 0) ) ),
# 3-nd target (SNMPv3 over IPv4/UDP)
( cmdgen.UsmUserData('usr-md5-des', 'authkey1', 'privkey1'),
cmdgen.UdpTransportTarget(('demo.snmplabs.com', 2161)),
( cmdgen.MibVariable('SNMPv2-MIB', 'sysDescr', 0),
cmdgen.MibVariable('SNMPv2-MIB', 'sysLocation', 0) ) )
# N-th target
# ...
)
# Wait for responses or errors
def cbFun(sendRequestHandle, errorIndication, errorStatus, errorIndex,
varBinds, cbCtx):
(snmpEngine, authData, transportTarget) = cbCtx
print('snmpEngine %s: %s via %s' %
(snmpEngine.snmpEngineID.prettyPrint(), authData, transportTarget)
)
if errorIndication:
print(errorIndication)
return 1
if errorStatus:
print('%s at %s' % (
errorStatus.prettyPrint(),
errorIndex and varBinds[int(errorIndex)-1][0] or '?'
)
)
return 1
for oid, val in varBinds:
if val is None:
print(oid.prettyPrint())
else:
print('%s = %s' % (oid.prettyPrint(), val.prettyPrint()))
# Instantiate the single transport dispatcher object
transportDispatcher = AsynsockDispatcher()
# Setup a custom data routing function to select snmpEngine by transportDomain
transportDispatcher.registerRoutingCbFun(
lambda td,ta,d: ta[1] % 3 and 'A' or 'B'
)
snmpEngineA = engine.SnmpEngine()
snmpEngineA.registerTransportDispatcher(transportDispatcher, 'A')
snmpEngineB = engine.SnmpEngine()
snmpEngineB.registerTransportDispatcher(transportDispatcher, 'B')
cmdGen = cmdgen.AsyncCommandGenerator()
for authData, transportTarget, varBinds in targets:
snmpEngine = transportTarget.getTransportInfo()[1][1] % 3 and \
snmpEngineA or snmpEngineB
cmdGen.getCmd(
snmpEngine, authData, transportTarget, cmdgen.ContextData(), varBinds,
(cbFun, (snmpEngine, authData, transportTarget))
)
transportDispatcher.runDispatcher()
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