Introduction to SNMP

Introduction to SNMP Yen-Cheng Chen http://www.im.ncnu.edu.tw/~ycchen/ ycchen@ncnu.edu.tw

Contents 1. Basic Concepts 2. Management Information Base 3. Simple Network Management Protocol 4. SNMP Application Examples 5. Reference Appendix: ASN.1 Concept

FDDI .... .... .... PC PC PC UNIX UNIX UNIX 1. Basic Concepts Management Station NM ... RMON Device Notification Polling Firewall / Router ... Internet

網路管理標準化 • 如果每個廠商的網路設備均提供一套獨特專屬(Proprietary)的網管方法與介面，網路管理工作將很難執行。 • 網路管理標準化 • 每個網路設備必須提供一致的網路管理介面(亦即相同的網路管理通信協定)。

網路管理相關標準 • Internet • SNMPv1, SNMPv2, SNMPv3 • ISO/ITU-T X.700 Series: • CMIP/S (Common Management Information Protocol / Service) • ITU-T M.3000 Series: • TMN (Telecommunication Management Networks)

SNMP Concepts • SNMP: • Simple Network Management Protocol • De facto standards of network management for TCP/IP networks (Internet) • IAB recommends all IP & TCP implementations should be network manageable. • That is, all TCP/IP network devices should support SNMP. IAB: Internet Activities Board

SNMP Architectural Model • Key Components • One or more Management Stations • Perform management applications, i.e, Monitor & Control. • Multiple Network Elements • hosts, routers, gateways, ..., which each contain an Agent. • Network Management Protocol • Exchange network management information.

SNMP SNMP SNMP UDP UDP UDP IP IP IP 網路介面網路介面網路介面 Network SNMP Architectural Model (cont.) Network Elements (NEs) Management Station Host Router Manager Agent Agent Network Management Protocol . . . SNMP

Management Components • Manager • Agent • Network Management Protocol • Management Information Base (MIB)

Management Components • Management Station (Manager) • Network management applications. • Provide an interface which the human network manager can monitor and control the network. • Agent • Network devices should be equipped with agent software so that they can be managed from a management station. • Responds to requests for information from managers. • Responds to requests for actions from managers. • May asynchronously provide managers with important but unsolicited information.

Management Components (cont.) • Network Management Protocol • Communication protocol between managers and agents • NM protocol provides a standard way to exchange management information between managers and agents. • Management Information Base (MIB) • A collection of Managed Objects. • The resources to be managed are represented as objects, called Managed Objects (MOs).

Management Information Base (MIB) Managed Resources • Each resource to be managed is represented by an object, called managed object (MO). • The MIB is a structured collection of MOs. • Essentially, each MO is a data variable. • Each agent in an NE maintains an MIB. • Monitor: by reading the values of MOs in the MIB. • Control: by modifying the values of MOs in the MIB. MIB Agent SNMP UDP IP 網路介面 NE: Network Element

Get, Set, GetNext Request Get Response Trap SNMP Services • Four Services • Get, Set, GetNext, Trap • Five SNMP PDUs • GetRequest, SetRequest, GetNextRequest, GetResponse, Trap Manager Agent(s) PDU: Protocol Data Unit

Get Request Set Request Get Response Get Response Manager Manager Manager Manager Agent Agent Agent Agent GetNext Request Get Response Trap Request SNMP Services Get GetNext Set Trap

SNMP Services (cont.) • Get Request: • Retrieve the values of objects in the MIB of an agent. • Get-Next Request: • Retrieve the values of the next objects in the MIB of an agent. • Set Request: • Update the values of objects in the MIB of an agent. • Trap Request • Report extraordinary events to the manager.

MIB Tree : 4 5 6 :Non-Leaf Object 1 2 3 :Leaf Object Get-Next Request In SNMP, Only leaf objects have values. ＊

Any 161 Any 162 Default UDP Ports for SNMP Management Station Network Elements (NEs) Manager Agent SNMP SNMP UDP UDP IP IP 網路介面網路介面

SNMP Standards • SNMP Protocol (Std 15) • RFC1157: Simple Network Management Protocol. • Structure of Management Information (SMI) (Std 16) • RFC1155: Structure and Identification of Management Information for TCP/IP-based Internets. • RFC1212: Concise MIB Definitions. • MIB-II (Std 17) • RFC1213: Management Information Base for Network Management of TCP/IP-based Internets: MIB-II. http://www.isi.edu/rfc-editor/rfc.html

2. Management Information Base • Structure of Management Information (SMI) • Set of rules on how managed objects should be defined. • Objects are defined using Abstract Syntax Notation One ASN.1 (ITU-T X.208 / ISO 8824) • MIB • The collection of all defined objects • Contains hierarchically organized variables corresponding to managed objects. • MIB-II, RMON MIB, Bridge MIB, Repeater MIB, X.25 MIB, FDDI MIB, Token Ring MIB, ...

Object Identifier • Object Identifier (OID): • Global identifier for a particular object type. • An OID consists of a sequence of integers, which specify the position of the object in the global object identifier tree. root 0 2 1 iso ccitt joint-iso-ccitt 3 0 2 1 1.3.6.1.2.1 org reg authority std member body 6 dod 1 1.3.6.1.2.1.2 1.3.6.1.4.1 internet 1 4 3 2 mgmt directory private experimental 1 1 MIB II MIB II enterprises enterprises interface system 1 interface 2 at 3 Trans. 10 SNMP 11 IP 4 ICMP 5 TCP 6 UDP 7 EGP 8

Private MIB Registration • Companies can register their private MIB extensions in the global MIB tree by contacting the Internet Assigned Numbers Authority (IANA). • http://www.iana.org/ • Currently assigned enterprise subtrees ftp://ftp.isi.edu/in-notes/iana/assignments/enterprise-numbers

SMI (RFC1155) RFC1155-SMI DEFINITIONS ::= BEGIN EXPORTS -- EVERYTHING internet, directory, mgmt, experimental, private, enterprises, OBJECT-TYPE, ObjectName, ObjectSyntax, SimpleSyntax, ApplicationSyntax, NetworkAddress, IpAddress, Counter, Gauge, TimeTicks, Opaque; internet OBJECT IDENTIFIER ::= { iso org(3) dod(6) 1 } directory OBJECT IDENTIFIER ::= { internet 1 } mgmt OBJECT IDENTIFIER ::= { internet 2 } experimental OBJECT IDENTIFIER ::= { internet 3 } private OBJECT IDENTIFIER ::= { internet 4 } enterprises OBJECT IDENTIFIER ::= { private 1 }

SMI (cont.) ASN.1 Macro OBJECT-TYPE MACRO ::= BEGIN TYPE NOTATION ::= "SYNTAX" type (TYPE ObjectSyntax) "ACCESS" Access "STATUS" Status VALUE NOTATION ::= value (VALUE ObjectName) Access ::= "read-only" | "read-write" | "write-only" | "not-accessible" Status ::= "mandatory" | "optional" | "obsolete" END ObjectName ::= OBJECT IDENTIFIER

OBJECT-TYPE Example sysDesc OBJECT-TYPE SYNTAX DisplayString (SIZE (0..255)) ACCESS read-only STATUS mandary ::= { system 1}

SMI (cont.) NetworkAddress ::= CHOICE { internet IpAddress} IpAddress ::= [APPLICATION 0] IMPLICIT OCTET STRING (SIZE (4)) Counter ::= [APPLICATION 1] IMPLICIT INTEGER (0..4294967295) Gauge ::= [APPLICATION 2] IMPLICIT INTEGER (0..4294967295) TimeTicks ::= [APPLICATION 3] IMPLICIT INTEGER (0..4294967295) Opaque ::= [APPLICATION 4] IMPLICIT OCTET STRING END ObjectName ::= OBJECT IDENTIFIER ObjectSyntax ::= CHOICE { simple SimpleSyntax, application-wide ApplicationSyntax} SimpleSyntax ::= CHOICE { number INTEGER, string OCTET STRING, object OBJECT IDENTIFIER, empty NULL} } ApplicationSyntax ::= CHOICE { address NetworkAddress, counter Counter, gauge Gauge, ticks TimeTicks, arbitrary Opaque }

Simple Syntax Integer Octet String Object Identifier Null Application Syntax Network Address Counter Gauge Time Ticks Opaque Object Syntax Summary

Concise MIB Definition (RFC 1212) DescrPart ::= "DESCRIPTION" value (description DisplayString) | empty ReferPart ::= "REFERENCE" value (reference DisplayString) | empty IndexPart ::= "INDEX" "{" IndexTypes "}" | empty IndexTypes ::= IndexType | IndexTypes "," IndexType IndexType ::= value (indexobject ObjectName) | type (indextype) DefValPart ::= "DEFVAL" "{" value (defvalue ObjectSyntax) "}" | empty END OBJECT-TYPE MACRO ::= BEGIN TYPE NOTATION ::= "SYNTAX" type(ObjectSyntax) "ACCESS" Access "STATUS" Status DescrPart ReferPart IndexPart DefValPart VALUE NOTATION ::= value (VALUE ObjectName)

mib-2 OBJECT IDENTIFIER ::= { mgmt 1 } system OBJECT IDENTIFIER ::= { mib-2 1 } interfaces OBJECT IDENTIFIER ::= { mib-2 2 } at OBJECT IDENTIFIER ::= { mib-2 3 } ip OBJECT IDENTIFIER ::= { mib-2 4 } icmp OBJECT IDENTIFIER ::= { mib-2 5 } tcp OBJECT IDENTIFIER ::= { mib-2 6 } udp OBJECT IDENTIFIER ::= { mib-2 7 } egp OBJECT IDENTIFIER ::= { mib-2 8 } -- cmot OBJECT IDENTIFIER ::= { mib-2 9 } transmission OBJECT IDENTIFIER ::= { mib-2 10 } snmp OBJECT IDENTIFIER ::= { mib-2 11 } Examples: MIB II (RFC 1213) ifTable OBJECT-TYPE SYNTAX SEQUENCE OF IfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A list of interface entries. The number of entries is given by the value of ifNumber." ::= { interfaces 2 } ifEntry OBJECT-TYPE SYNTAX IfEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "An interface entry containing objects at the subnetwork layer and below for a particular interface." INDEX { ifIndex } ::= { ifTable 1 }

Identification of Managed Objects • Use Object Identifier (OID) • OID = Object Type OID . Instance Identifier • Object Type OID: • Each Object type has a unique OID • Instance Identifier: • Identify instances of object type • E.g .mib-2.interface.ifTable.ifEntry.ifDescr.2

Two Kinds of Managed Objects • Type-Specific Objects: • sysDescr OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ::= {system 1} • OID: mib-2.system.1.0 • Columnar Objects • OID: mib-2.interface.ifTable.ifEntry.ifDescr.2 mib-2.interface.ifTable.ifEntry.ifDescr.6 mib-2.interface.ifTable.ifEntry.ifType.2 mib-2.interface.ifTable.ifEntry.ifType.6

Columnar Objects IfEntry ::= SEQUENCE { ifIndex INTEGER, ifDescr DisplayString, ifType INTEGER, … } ifTable OBJECT-TYPE SYNTAX SEQUENCE OF IfEntry … ::= { interface 2 } ifEntry OBJECT-TYPE SYNTAX IfEntry … INDEX {ifIndex } ::= { ifTable 1} ifDescr OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) ACCESS read-only STATUS madatory ... ::= {ifEntry 2}

Columnar Objects .ifTable.ifEntry.1 (1.3.6.1.2.1.2.2.1.1) .ifTable.ifEntry.2 (1.3.6.1.2.1.2.2.1.2) .ifTable.ifEntry.3 (1.3.6.1.2.1.2.2.1.3) ifIndex ifDescr ifType . . . 1 le0 6 . . . 6 llc0 1 . . . 7 lo0 24 . . . 9 le1 6 . . . 1.3.6.1.2.1.2.2.1.2.6 1.3.6.1.2.1.2.2.1.3.7

Index in MIB II • ifEntry {ifIndex} • atEntry {atNetIfIndex, atNetAddress} • ipAddrEntry {ipAdEntAddr } • ipRouteEntry {ipRouteDest} • ipNetToMediaEntry {ipNetToMediaIfIndex, ipNetToMediaNetAddress} • tcpConnEntry {tcpConnLocalAddress, tcpConnLocalPort, tcpConnRemoteAddress, tcpConnRemotePort} • udpEntry {udpLocalAddress, udpLocalPort} • egpNeighEntry {egpNeighAddr}

Index Example • To get the state of the TCP connection: 10.144.18.118:1200 ===> 10.144.14.40:1600  Use snmp_get_req. to get the “tcpConnState” of the tcpConnTable in MIB II. tcpConnState ==> .1.3.6.1.2.1.6.13.1.1 .1.3.6.1.2.1.6.13.1.1.10.144.18.118.1200.10.144.14.40.1600

MIB II • System Group • Provide general information about the managed system. • InterfacesGroup • Contains generic information about the physical interfaces. • Address-TranslationGroup • Contains information about the mapping between network addresses and physical addresses for each physical interface. • IPGroup • Contains information about the implementation and operation of IP at the managed system. • ICMPGroup • Contains information about the implementation and operation of ICMP at the managed system.

MIB-II (cont.) • TCPGroup • Contains information about the implementation and operation of TCP at the managed system. • UDPGroup • Contains information about the implementation and operation of UDP at the managed system. • EGPGroup • Contains information about the implementation and operation of EGP at the managed system. • TransmissionGroup • Provides details about the underlying transmission media for each interface. • SNMPGroup • Provides the statistics of SNMP operations at the managed system.

IETF MIBs • 1213 MIB-II • 1316 Character Stream • 1317 RS-232-like Hardware • 1471 PPP • 1513 RMON for Token Ring • 1757 RMON • 2021 RMON-II • .....

Message ::= SEQUENCE { version INTEGER {version-1(0)}, community OCTET STRING, data ANY } Version Community SNMP PDU 3. SNMP • SNMP Message • Version Identifier • Community Name • Protocol Data Unit • The length of SNMP messages should not exceed 484 octets.

SNMP Authentication • Community • Relationship between an Agent and Managers. • Community Name • Used to validate the SNMP messages. • SNMP Password. • Default ‘Get’ community name: “public”. • Authentication Failure • Agent sends “Authentication Failure Trap” to Manager.

SNMP PDU PDU ::= SEQUENCE { request-id INTEGER, error-status INTEGER { noError(0), tooBig(1), noSuchName(2), badValue(3), readOnly(4) genErr(5)}, error-index INTEGER, variable-bindings SEQUENCE OF { name ObjectName, value ObjectSyntax } } Five SNMP PDUs: GetRquest : GetNextRequest : GetResponse : SetRequest : Trap : [0] PDU [1] PDU [2] PDU [3] PDU [4] Trap-PDU PDU: Protocol Data Unit

GetRequest, GetNextRequest, SetRequest PDU type request-id 0 0 variable-bindings GetResponse PDU type request-id variable-bindings error-status error-index variable-bindings . . . name name name value value value SNMP PDU (cont.)

Trap-PDU • Enterprise: • Type of Object generating trap. • AgentAddress: • Address of object generating trap. • GenericTrap: • Generic trap type. • SpecificTrap: • Enterprise specific trap. • TimeStamp: • Time elapsed between the last • initialization of the network entity and • the generation of the trap. • VariableBindings • “Interesting” information Trap-PDU ::= [4] IMPLICIT SEQUENCE { enterprise OBJECT IDENTIFIER, agent-addr NetworkAddress, generic-trap INTEGER { coldStart(0), warmStart(1), linkDown(2), linkUp(3), authenticationFailure(4), egpNeighborLoss(5), enterpriseSpecific(6)}, specific-trap INTEGER, time-stamp TimeTicks, variable-bindings VarBindList } generic-trap time-stamp specific-trap PDU type agent-addr enterprise variable-bindings

Sends Request PDU to Agent Received Response PDU from Agent How does a Manager do? Translates Internal Data to ASN.1 Format NM Application Agent Translates ASN.1 Package to Internal Data Format NM Application Agent Manager

Received SNMP Request PDU from Manager Translates ASN.1 Structure to Internal Data Maps MIB Variables to Internal Variables Sends SNMP Response PDU to Manager Translates Response PDU to ASN.1 Format Implement SNMP Request to Set or Get MIB Value How does an Agent do? From Manager To Manager Agent

Main Loop of Agent • Agent waits for an incoming datagram in Port 161 • Reads the datagram from UDP and notes the transport address of the sending entity. • Increments the QUANTUM to keep track of the logical request-id being processed by agent • De-serializes the datagram into an ASN.1 structure. If error occurs, log error and discard packet. • The ASN.1 structure is translated into SNMP message. If error occurs, log error and discard packet. • Check on VERSION-NUMBER field. If error occurs, log error and discard packet.

Main Loop of Agent (cont.) • Community name is looked up. If community is unknown to agent, agent send AUTHENTICATION trap to Manager station in Port 162; log error and discard packet. • Agent loops through list of variables in the request. If no prototype is found, return a GET-RESPONE with error noSuchName and discard package. Once prototype is fund, operation is checked against community profile. If mismatch occurs, return get-respone with error noSuchName or readOnly and discard package. Otherwise, agent invokes access routine to perform the desired operation.

What's New in SNMPv2 • No more Trap PDU, 3 New PDUs: • getBulkReq, InformReq, SNMPv2-Trap • Added Security • 18 Error Status Values • SNMPv2 SMI / SNMPv2 MIB • M-to-M Communications • Table Operations • ...

4. SNMP Application Examples • SNMP Commands • snmpget [options] node variable [...] • query a node using SNMP Get request • snmpnext [options] node variable [...] • query a node using SNMP GetNext request • snmpwalk [options] node variable • query a node repeatedly using SNMP GetNext/GetBulk requests • snmptrap [-d] [-p port] [-c community] node enterprise agent-addr generic-trap specific-trap time-stamp variable type value [variable type value...] • issue an SNMP Version 1 Trap • options:[-d] [-t timeout] [-r retries] [-p port] [-c community] [-v version]

Example for snmpget >>snmpget-d 10.144.18.118 .1.3.6.1.2.1.1.1.0 Transmitted 41 bytes to camry (10.144.18.118) port 161: Initial Timeout: 0.80 seconds 0: 30 27 02 01 00 04 06 70 75 62 6c 69 63 a0 1a 02 0'.....public... 16: 02 18 bc 02 01 00 02 01 00 30 0e 30 0c 06 08 2b .........0.0...+ 32: 06 01 02 01 01 01 00 05 00 -- -- -- -- -- -- -- ................ 0: SNMP MESSAGE (0x30): 39 bytes 2: INTEGER VERSION (0x2) 1 bytes: 0 (SNMPv1) 5: OCTET-STR COMMUNITY (0x4) 6 bytes: "public" 13: GET-REQUEST-PDU (0xa0): 26 bytes 15: INTEGER REQUEST-ID (0x2) 2 bytes: 6332 19: INTEGER ERROR-STATUS (0x2) 1 bytes: noError(0) 22: INTEGER ERROR-INDEX (0x2) 1 bytes: 0 25: SEQUENCE VARBIND-LIST (0x30): 14 bytes 27: SEQUENCE VARBIND (0x30): 12 bytes 29: OBJ-ID (0x6) 8 bytes: .1.3.6.1.2.1.1.1.0 39: NULL (0x5) 0 bytes

Example for snmpget (cont.) Received 69 bytes from camry (10.144.18.118) port 161: 0: 30 43 02 01 00 04 06 70 75 62 6c 69 63 a2 36 02 0C.....public.6. 16: 02 18 bc 02 01 00 02 01 00 30 2a 30 28 06 08 2b .........0*0(..+ 32: 06 01 02 01 01 01 00 04 1c 53 75 6e 20 53 4e 4d .........Sun SNM 48: 50 20 41 67 65 6e 74 2c 20 53 55 4e 57 2c 55 6c P Agent, SUNW,Ul 64: 74 72 61 2d 31 -- -- -- -- -- -- -- -- -- -- -- tra-1........... 0: SNMP MESSAGE (0x30): 67 bytes 2: INTEGER VERSION (0x2) 1 bytes: 0 (SNMPv1) 5: OCTET-STR COMMUNITY (0x4) 6 bytes: "public" 13: RESPONSE-PDU (0xa2): 54 bytes 15: INTEGER REQUEST-ID (0x2) 2 bytes: 6332 19: INTEGER ERROR-STATUS (0x2) 1 bytes: noError(0) 22: INTEGER ERROR-INDEX (0x2) 1 bytes: 0 25: SEQUENCE VARBIND-LIST (0x30): 42 bytes 27: SEQUENCE VARBIND (0x30): 40 bytes 29: OBJ-ID (0x6) 8 bytes: .1.3.6.1.2.1.1.1.0 39: OCTET-STR (0x4) 28 bytes: "Sun SNMP Agent, SUNW,Ultra-1" system.sysDescr.0 : DISPLAY STRING- (ascii): Sun SNMP Agent, SUNW,Ultra-1

Introduction to SNMP