Manajemen Jaringan, Sukiswo ST, MT 1 Network Monitoring Sukiswo

Manajemen Jaringan, Sukiswo ST, MT 2 Table of Contents  Introduction  Monitored Types of Information  Network Monitoring Configurations  Network Monitoring Methods  Performance Monitoring –Performance Indicators –Performance Monitoring Functions  Fault Monitoring –Problems of Fault Monitoring –Fault Monitoring Functions  Accounting Monitoring

Manajemen Jaringan, Sukiswo ST, MT 3 Introduction  Network monitoring is concerned with observing and analyzing the status and behavior of the end systems, intermediate systems, and subnetworks that make up the network to be managed

Manajemen Jaringan, Sukiswo ST, MT 4 Introduction  Issues in network monitoring –what to monitor? define what is to be monitored –how to monitor? how to obtain information from managed resources –what to do with the monitored information? how the monitored information is used in various management functional areas

Manajemen Jaringan, Sukiswo ST, MT 5 Monitored Types of Information  Static information –hardly changes –current configuration information e.g., the number and identification of ports on a router  Dynamic information –changes frequently –information related to events in the network e.g., change of state, transmission/reception of packets  Statistical information –derived from dynamic information e.g., average number of packets transmitted per unit time

Manajemen Jaringan, Sukiswo ST, MT 6 Organization of a Management Information Base MANAGEMENT INFORMATION BASE (MIB) Call_Blocked Packet_Loss Time_Delay Throughput State_Variable Event_Variable Switch_server Buffer Source Server Station_Info Switch_Buffer Switch_Source Status_Sensor Derived_Status_Sensor Event_Sensor Configuration data base Sensor data base Statistical data base Dynamic data base Abstraction of state and event variables Sensor activation and data collection Static data base

Manajemen Jaringan, Sukiswo ST, MT 7 Monitoring System Components  monitoring application –includes the functions of monitoring that are visible to the user e.g., performance, fault, accounting  manager function –performs the basic monitoring function of retrieving information

Manajemen Jaringan, Sukiswo ST, MT 8 Monitoring System Components  agent function –gathers and records management information for one or more network elements and delivers the information to the monitor  managed objects –mgmt information that represents resources and their activities  monitoring agent –generates summaries and statistical analysis of mgmt information

Manajemen Jaringan, Sukiswo ST, MT 9 Functional Architecture for Network Monitoring Monitoring application Monitoring application Manager function Manager function Monitoring agent... Agent function Agent function Agent function Managed objects Managed objects Managed objects (a) manager-agent model (b) A model for summarization

Manajemen Jaringan, Sukiswo ST, MT 10 Network Monitoring Configurations LAN (c) External monitor Monitoring application Monitoring application Monitoring application Manager function Manager function Manager function Agent function Agent function Agent function Managed objects LAN (a) Managed resources in manager system (d) proxy monitor agent observed traffic Subnetwork or internet Monitoring application Manager function Agent function Managed objects (b) Resources in agent system Subnetwork or internet Subnetwork or internet

Manajemen Jaringan, Sukiswo ST, MT 11 Network Monitoring Methods  Polling –a request-response interaction between a manager and agent –a manager sends request to an agent which processes the request and responds with information from its MIB –a manager may use polling to learn about the configuration it is managing obtain periodically an update of conditions investigate an area in detail after being altered to a problem

Manajemen Jaringan, Sukiswo ST, MT 12 Network Monitoring Methods  Event Reporting –information flow is initiated from the agent to manager –an agent may generate report periodically to give the manager its current status or whenever a significant event (e.g., change of a state) or an unusual event (e.g., fault) occurs –good for detecting problems as soon as they occur

Manajemen Jaringan, Sukiswo ST, MT 13 Performance Monitoring  Measuring the performance of the network (or performance monitoring) is absolutely required in NM –to detect & fix problems that cause performance degradation –to better plan network upgrades

Manajemen Jaringan, Sukiswo ST, MT 14 Performance Monitoring  Problems in selecting and using appropriate indicators (or metrics) –too many indicators in use –the meaning of most indicators are not yet clearly understood –some indicators are supported by some manufacturers only –frequently, the indicators are accurately measured but incorrectly interpreted by human or mgmt application –the calculation of indicators takes too much time

Manajemen Jaringan, Sukiswo ST, MT 15 Network Performance Indicators  Service-oriented –Availability: the percentage of time that a network system, a component, or an application is available for a user –Response Time: how long it takes for a response to appear at a user’s terminal after a user action calls for it –Accuracy: the percentage of time that no errors in the transmission and delivery of information

Manajemen Jaringan, Sukiswo ST, MT 16 Network Performance Indicators  Efficiency-oriented –Throughput: the rate at which application- oriented events (e.g., file transfers) occur –Utilization: the percentage of the theoretical capacity of a resource (e.g., transmission line, switch, CPU) that is being used

Manajemen Jaringan, Sukiswo ST, MT 17 Elements of Response Time TO Workstation Network interface (e.g., router) Server SI SO TI WI WO CPU RT = TI + WI + SI + CPU + WO + SO + TO RT = response time CPU = CPU process delay TI = inbound terminal delay WO = outbound queuing time WI = inbound queuing time SO = outbound service time SI = inbound service time TO = outbound terminal delay Network

Manajemen Jaringan, Sukiswo ST, MT 18 Performance Monitoring Functions  Performance Measurement –the actual gathering of statistics about network traffic & timing –typically performed by agents within network devices –e.g., amount of data in and out of a node, number of connections, traffic per connection

Manajemen Jaringan, Sukiswo ST, MT 19 Performance Monitoring Functions  Performance Analysis –analyzing the gathered data and presenting it –e.g., total, average, min, max, histogram  Synthetic Traffic Generation –generating artificial traffic load –permits the network to be observed under a controlled load

Manajemen Jaringan, Sukiswo ST, MT 20 Typical Performance-Related Questions  Performance measurements can be used to answer a number of questions –Why is the response so slow? (a very loaded question!) –Why is the retransmission rate so high? –Is traffic evenly distributed among network users or are there source-destination pairs with unusually heavy traffic? –What is the percentage of each type of packet?

Manajemen Jaringan, Sukiswo ST, MT 21 Typical Performance-Related Questions –What is the channel utilization and throughput? –What is the effect of traffic load on utilization, throughput & time delays? –When does traffic load start to degrade system performance? –What is the maximum capacity of the channel under normal operating conditions? How many active users are necessary to reach this maximum?

Manajemen Jaringan, Sukiswo ST, MT 22 Fault Monitoring  To detect faults as quickly as possible after they occur and to identify the cause of the fault so that correctional action may be taken  Problems of Fault Monitoring –Fault Detection Problems Unobservable faults: e.g., deadlock, device not monitorable Partially observable faults: insufficient to pinpoint the problem Uncertainty in observation: not clear what the problem is

Manajemen Jaringan, Sukiswo ST, MT 23 Fault Monitoring –Fault Isolation Problems Multiple potential causes Too many related observations Interference between diagnosis and local recovery procedures Absence of automated testing tools

Manajemen Jaringan, Sukiswo ST, MT 24 What happens when the T1 link fails? Client Server Router MUX PBX Router T1 Heterogeneous Network Environment

Manajemen Jaringan, Sukiswo ST, MT 25 Propagation of Failures to Higher Layers Client Server Router Mux Application failure Transport failure Data link failure Transmission break

Manajemen Jaringan, Sukiswo ST, MT 26 Fault Monitoring Functions  Logging –record important events and errors –logs should be accessible by managers (e.g., via polling)  Event Reporting –sending events, errors to managers –sending alarms to manager to warn possible problems

Manajemen Jaringan, Sukiswo ST, MT 27 Fault Monitoring Functions  Diagnostic Functions –connectivity test (e.g., traceroute) –response-time test –liveness test (e.g., ping) –protocol integrity test –loopback test

Manajemen Jaringan, Sukiswo ST, MT 28 Accounting Monitoring  Keeping track of users’ usage of network resources –communication facilities –computer hardware –software and systems –services  Usage may need to be broken down by account, by project, or by individual user for appropriate accounting purposes

Manajemen Jaringan, Sukiswo ST, MT 29 Summary  Network monitoring is the most basic aspect of NM  The purpose of network monitoring is to gather information about the status and behavior of network elements  Information to be gathered include –static, dynamic and statistical information  Monitoring methods - polling & event reporting  Monitoring functions –performance monitoring –fault monitoring –accounting monitoring  READ Chapter 2 of Textbook