chapter 3 basic foundations: standards, models, and language
TRANSCRIPT
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Chapter 3Basic Foundations:Standards, Models, and Language
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Outline
1. NM Standards2. Organization Model3. Information Model4. Communication Model5. Functional Model6. ASN.17. BER Encoding8. Macro
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Introduction
• Standards• Standards organizations• Protocol standards of transport layers• Protocol standards of management
(application) layer• Management Models• Language
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1. NM Standards
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NM Standards (cont.)
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OSI Architecture and Model
NetworkMangement
InformationModel
OrganizationModel
FunctionalModel
CommunicationModel
Figure 3.1 OSl Network Management Model
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OSI NM• Organization Model
• Network management components• Functions of components• Relationships
• Information Model• Structure of management information (SMI)
• Syntax and semantics• Management information base (MIB)
• Organization of management information• Object-oriented
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OSI NM• Communication Model
• Transfer syntax with bi-directional messages• Transfer structure (PDU)
• Functional Model
• Application functions• Configure components (CM)• Monitor components (FM)• Measure performance (PM)• Secure information (SM)• Usage accounting (AM)
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SNMP Architecture and Model
• Organization Model• Same as OSI model
• Information Model• Same as OSI, but scalarscalar
• Communication Model• Messages less complex than OSI
and unidirectional • Transfer structure (PDU)
• Functional Model• Application functions
• Operations• Administration• Security
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TMN Architecture
• Addresses management of telecommunication
networks• Based on OSI model• Superstructure on OSI network• Addresses network, service, network, service, and business business
management
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TMN & Telecommunication network
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2. Organization Model
Describes the components of network management and their relationships.
NM Components Manager Agent Managed Objects
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NM Components• Manager
• Sends requests to agents• Monitors alarms• Houses applications• Provides user interface
• Agent• Gathers information from objects• Configures parameters of objects• Responds to managers’ requests• Generates alarms and sends them to
mangers• Managed object
• Network element that is managed• Houses management agent• All objects are not managed / manageable
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Two-Tier NM Organization Model
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Three-Tier Model
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NM Organization Model with MoM
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Peer NMSs
Dual Role of Management Process
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3. Information Model
Structure and Storage of Management Information
SMISMI (Structure of Management Information) Defines the syntax and semantics of
management information. MIBMIB (Management Information Base)
Conceptual storage of management information
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SMI (Structure of Management Information)
• SMI defines for a managed object• Syntax• Semantics• plus additional information such as status
• Example sysDescr: { system 1 } Syntax: OCTET STRING Definition: "A textual description of
the entity. " Access: read-only Status: mandatory
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Management Information Base (MIB)
• Information base contains information about
objects• Organized by grouping of related objects• Defines relationship between objects• It is NOT a physical database. It is a virtual
database that is compiled into management
module.• Agent MIB vs. Manager MIB MIB View
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MIB View: An Analogy
• A County library system has many branches• Each branch has a set of books• The books in each branch is a different set• The information base of the county has the
view (catalog) of all books• The information base of each branch has the
catalog of books that belong to that branch. That is, each branch has its view (catalog) of the information base
• Let us apply this to MIB view
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MIB View and Object Access
• A managed object has many attributes - its information base
• There are several operations that can be performed on the objects
• A user (manager) can view and perform only certain operations on the object by invoking the management agent
• The view of the object attributes that the agent perceives is the MIB view
• The operation that a user can perform is the MIB access
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Manager
Managed objects
MDB MIB
MDB vs. MIB MDB
Management Data Base physical database
MIB Management Information
Base virtual database
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Managed Objects (MOs) in MIB
• Managed objects can be• Network elements (hardware, system)
• hubs, bridges, routers, transmission facilities
• Software (non-physical)• programs, algorithms
• Administrative information• contact person, name of group of objects
(IP group)
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Management Information Tree (MIT)
MOs are uniquelyuniquely defined by a tree structure specified by OSI model.
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OSI Management Information Tree
•Designation:
• iso 1
• org 1.3
• dod 1.3.6
• internet 1.3.6.1
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Three Trees in Network Management
Inheritance Tree NE / Switch / Ethernet Switch
Containment Tree NE / Module / Interface / Physical
Address Registration Tree
iso / org / dod / internet / management
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Object Type and Instance
• Each object type has a unique identification (Object (Object Identifier, OIDIdentifier, OID) and name (DescriptorDescriptor).
• Object TypeObject Type• Name• Syntax• Definition• Status• Access
• Object InstanceObject Instance
• Each object type has one or more instances.
sysNamesysName
Octet StringOctet String
““The name of a system”The name of a system”
MandatoryMandatory
Read-OnlyRead-Only
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Managed Object: Internet Perspective
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Managed Object: Internet Perspective
object IDobject ID unique ID (OID)
and descriptordescriptor and name for the objectsyntaxsyntax used to model the objectaccess access privilege to a managed
object
status implementation requirements
definition textual description of the semantics of object type
References: RFC 1155, RFC 1212
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Managed Object: OSI Perspective
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Managed Object: OSI Perspective
object classobject class managed object
attributesattributes attributes visible at its boundary
operationsoperations operations which may be applied to it
behaviorbehavior behavior exhibited by it in response
to operation
notificationsnotifications notifications emitted by the object
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Managed information communication architecture.
Source: IEEE Communications Magazine • May 1993
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Source: IEEE Communications Magazine • May 1993
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Packet Counter Example
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Internet vs. OSI Managed Object
• Scalar object (Internet) vs. Object-oriented (OSI)• Operations, behavior, and notification in OSI are part
of communication model in Internet: get/set and response/alarm
• Internet syntaxsyntax is absorbed as part of OSI attributes• Internet accessaccess is part of OSI security model• Internet statusstatus is part of OSI conformance application• OSI permits creation and deletion of objects;
Internet does not: Enhancement in SNMPv2
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4. Communication Model
OSI: Operations Internet: Request/Response
OSI: Notifications Internet: Traps/Notifications
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Transfer Protocols
c-l vs. c-o/c-l
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5. Functional Model
OSIFunctional Model
FaultManagement
ConfigurationManagement
PerformanceManagement
SecurityManagement
AccountingManagement
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6. Abstract Syntax Notation One: - ASN.1
• ASN.1 is more than a syntax; it’s a language• Addresses both syntax and semantics• Two type of syntax
• Abstract syntaxAbstract syntax: set of rules that specify data type and structure for information storage
• Transfer syntaxTransfer syntax: set of rules for communicating information between systems
• Makes application layer protocols independent of lower layer protocols
• Can generate machine-readable code: Basic Encoding Basic Encoding RulesRules (BERBER) is used in management modules
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Abstract Syntax & Transfer Syntaxhttp://www.strongsec.com/zhw/KSy_ASN1.pdf
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Backus-Nauer Form (BNF)
Definition:
<name> ::= <definition>
Rules:
<digit> ::= 0|1|2|3|4|5|6|7|8|9
<number> ::= <digit> | <digit><number>
<op> ::= +|-|x|/
<SAE> ::= <number>|<SAE>|<SAE><op><SAE>
Example:• 9 is primitive 9• 19 is construct of 1 and 9• 619 is construct of 6 and 19
(Production)
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Data Type and Value• Assignments
• <BooleanType> ::= BOOLEAN• <BooleanValue> ::= TRUE | FALSE
• Primitive ASN.1 data types in SNMPv1• INTEGER• OCTET STRING• OBJECT IDENTIFIER• NULL
• All in Capital letters keywords
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Type and Value Assignments
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Subtype
Syntax: <subtype name> ::= <type> ( <constraint> )Examples:
Counter ::= INTEGER ( 0..4294967295 )
IpAddress ::= OCTET STRING ( SIZE(4) )
Spring ::= Months ( march | april | may )
Summer ::= Months ( june | july | august )
SmallPrime ::= INTEGER ( 2 | 3 | 5 | 7 | 11 )
ExportKey ::= BIT STRING ( SIZE(40) )
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ASN.1 Data Types Basic Types
BOOLEAN, INTEGER, BIT STRING, OCTET STRING, NULL, OBJECT IDENTIFIER, REAL, ENUMERATED, NumericString, PrintableString, IA5String, UTCTime, GeneralizedTime, CharacterString
Constructed Types CHOICE SEQUENCE, SEQUENCE OF SET, SET OF
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ExampleMarried ::= BOOLEANAge ::= INTEGERPicture ::= BIT STRING
Form ::= SEQUENCE { name PrintableString,age Age,married Married,marriage-certificate Picture
}
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Example
Payment-method ::= CHOICE {
check Check-number,
credit-card SEQUENCE {
number Card-number,
expiry-date Date
}
}
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Data Type: Example 1PPersonnelRecord ::= SETSET
{ Name,title GraphicString,division CHOICE {
marketing [0] SEQUENCE{Sector,
Country},research [1] CHOICE
{product-based [0] NULL, basic [1] NULL},production [2] SEQUENCE
{Product-line, Country }
}}
Tag
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Data Type: Example 2
Trade-message ::= SEQUENCE
{ invoice-no INTEGER,
name GraphicString,
details SEQUENCE OF
SEQUENCE
{ part-no INTEGER,
quantity INTEGER },
charge REAL,
authenticator Security-Type
}
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Enumerated Integer
IpRouteType ::=
INTEGER {
other(1),
invalid(2),
direct(3),
indirect(4)
}
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Object Nameiso-itu
2iso1
itu0
org3
dod6
internet1
private4
enterprise1
IBM2
internet OBJECT IDENTIFIER ::= { iso(1) org(3) dod(6) internet(1) }private OBJECT IDENTIFIER ::= { internet 4 }
The object identifier (OID) of internet is 1.3.6.1 The object identifier (OID) of private is 1.3.6.1.4
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ASN.1 Module• ASN.1 module is a group of assignments
person-name Person-Name ::={
first "John",middle "I",last "Smith"
}
• pperson-name module name• PPerson-name module
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Module
<module name> DEFINITIONS ::= BEGIN<name> ::= <definition><name> ::= <definition>…
<name> ::= <definition>END
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ASN.1 Keyword Examples
CHOICE List of alternatives
SEQUENCE Ordered list maker
SEQUENCE OF Ordered array of repetitive data
SET Unordered list maker
SET OF Unordered list of repetitive data
INTEGER Any negative or non-negative number
NULL A placeholder
OCTET STRING String of octets (8-bit bytes)
OBJECT IDENTIFIER A sequence of non-negative numbers to uniquely identify an object
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ASN.1 SymbolsSymbol Meaning
::=::= Defined as
|| or, alternative, options of a list
-- Signed number
---- Following the symbol are comments
{}{} Start and end of a list
[][] Start and end of a tag
()() Start and end of subtype
.... Range
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ASN.1 Data Type Conventions
Data Types
Convention
Example
Object name Initial lowercase letter sysDescr, etherStatsPkts
Application data type
Initial uppercase letter Counter, IpAddress
Module Initial uppercase letter PersonnelRecord
Macro, MIB module All uppercase letters RMON-MIB
Keywords All uppercase letters INTEGER, BEGIN
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Data Type: Structure & Tag
• Structure defines how data type is built• Tag uniquely identifies the data type
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Structure• SimpleSimple
PageNumber ::= INTEGERChapterNumber ::= INTEGER
• Structured / ConstructStructured / Construct BookPageNumber ::= SEQUENCE
{ChapterNumber, Separator, PageNumber}
• TaggedTagged• Derived from another type; given a new ID• In Fig. 3-14, INTEGER is either universal or
application specific
• OtherOther• CHOICE, ANY
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Structured Type SEQUENCE
Ordered list maker
SEQUENCE OF Ordered array of repetitive data
SET Unordered list maker
SET OF Unordered list of repetitive data
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Tag• Tag uniquely identifies a data type• Comprises classclass and tagtag number• Class:
• UniversalUniversal - always true• ApplicationApplication - only in the application used• Context-specificContext-specific - specific context in
application• PrivatePrivate - used extensively by commercial
vendors
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Tag Examples
BOOLEAN Universal 1INTEGER Universal 2PageNumber [APPLICATION 3]product-based Context-specific under
research [0]
Counter ::=
[APPLICATION 1] INTEGER (0..4294967295)
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Name: John P SmithTitle: DirectorEmployee Number 51Date of Hire: 17 September 1971Name of Spouse; Mary T SmithNumber of Children 2Child Information
Name Ralph T SmithDate of Birth 11 November 1957
Child InformationName Susan B JonesDate of Birth 17 July 1959
Informal description of personnel recordInformal description of personnel record
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PersonnelRecord ::= [APPLICATION 0] IMPLICIT SET {Name,title [0] VisibleString,number EmployeeNumber,dateOfHire [1] Date,nameOfSpouse [2] Name,children [3] IMPLICIT SEQUENCE OF ChildInformation DEFAULT { }
}
ChildInformation ::= SET {Name,dateOfBirth [0] Date }
Name ::= [APPLICATION 1] IMPLICIT SEQUENCE {givenName VisibleString,initial VisibleString,familyName VisibleString }
EmployeeNumber ::= [APPLICATION 2] IMPLICIT INTEGER
Date ::= [APPLICATION 3] IMPLICIT VisibleString -- YYYYMMDD
ASN.1 description of the record structureASN.1 description of the record structure
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{ {givenName “John”, initial “T”, familyName “Smith”},
title “Director”number “51”dateOfHire “19710917”nameOfSpouse {givenName “Mary”, initial “T”, familyName
“Smith”},children{ { {givenName “Ralph”, initial “T”, familyName “Smith”}, dateOfBirth “19571111”
}, { {givenName “Susan”, initial “B”, familyName “Jones”} dateOfBirth “19590717”
}}
}
ASN.1 description of a record valueASN.1 description of a record value
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7. BER Encoding BER (Basic Encoding Rule) TLV Encoding Structure
Type Length Value
Class(7-8th bits)
P/C(6th bit)
Tag Number(1-5th bits)
P/C: Primitive/Construct
T: Tag
0/1
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TLV
T L V
Primitive:
Construct:
INTEGER
SEQUENCE
T L
T L V T L V
V
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Universal Class Tag
Universal 2 INTEGER
Universal 4 OCTET STRING
Universal 5 NULL
Universal 6 OBJECT IDENTIFIER
Universal 16 SEQUENCE / SEQUENCE OF
00 0 00010 02
00 0 00100 04
00 0 00101 05
00 0 00110 06
00 1 10000 30
Binary Hex Tag Tag Name
Page 127
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Tag numbers 31
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1000 0000
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30 0A 1A 04 4A 61 6E 65 51 02 00 80
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Example: SNMP Message
Message ::= SEQUENCE { version INTEGER {
version-1(0) },
community OCTET STRING,data ANY
}
30
02
04
Tag
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Example: SNMP Message
Type 30: SEQUENCELength 82 01 c0: 448 octets
82: 10000010
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Type 30: SEQUENCELength 32: 50 octets
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8. Macros
<<macroname> macroname> MACROMACRO ::= ::=
BEGINBEGIN
TYPE NOTATIONTYPE NOTATION ::= <syntaxOfNewType>::= <syntaxOfNewType>
VALUE NOTATIONVALUE NOTATION ::= <syntaxOfNewValue> ::= <syntaxOfNewValue>
<auxiliaryAssignments><auxiliaryAssignments>
ENDEND
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Macro Example
OBJECT-TYPEOBJECT-TYPE MACRO ::= BEGIN MACRO ::= BEGIN
TYPE NOTATION ::=TYPE NOTATION ::= "SYNTAX" type (TYPE ObjectSyntax)"SYNTAX" type (TYPE ObjectSyntax)
““ACCESS" AccessACCESS" Access
"STATUS" Status"STATUS" Status
VALUE NOTATION ::= value (VALUE ObjectName)VALUE NOTATION ::= value (VALUE ObjectName)
Access ::= "read-only" | "read-write“ | "write-only Access ::= "read-only" | "read-write“ | "write-only | "not-accessible"| "not-accessible"
Status ::= "mandatory” | "optional“ | "obsolete"Status ::= "mandatory” | "optional“ | "obsolete"
ENDEND
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Object-Type Example
sysName OBJECT-TYPEsysName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..255))SYNTAX DisplayString (SIZE (0..255))
ACCESS read-writeACCESS read-write
STATUS mandatorySTATUS mandatory
::= { system 5 }::= { system 5 }
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Marco Example 2
CAR CAR MACRO::= BEGINMACRO::= BEGIN
TYPE NOTATION ::=TYPE NOTATION ::= Brand Engine CarType Year Brand Engine CarType Year
VALUE NOTATION ::=VALUE NOTATION ::= value (VALUE OBJECT IDENTIFIER) value (VALUE OBJECT IDENTIFIER)
Brand ::= “BRAND” value (PrintableString)Brand ::= “BRAND” value (PrintableString)
Engine ::= “CC” CcsEngine ::= “CC” Ccs
Ccs ::= Cc | Ccs”,” CcCcs ::= Cc | Ccs”,” Cc
Cc ::= value (INTEGER (600..5000))Cc ::= value (INTEGER (600..5000))
CarType ::= “STYLE” CType CarType ::= “STYLE” CType
CType ::= “Sedan” | “Liftback” | “SUV” | “Other”CType ::= “Sedan” | “Liftback” | “SUV” | “Other”
Year ::= “YEAR” value (INTEGER)Year ::= “YEAR” value (INTEGER)
ENDEND
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Camry CARBRAND ToyotaCC 2000, 2400, 3000STYLE SedanYEAR 2006
::= {toyota 3}