CCNP Route All Chapters

8/10/2019 CCNP Route All Chapters

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1 Which route description best defines a floating static route?a route with a metric equal to the metric of a corresponding dynamic route

a route with a metric less than the metric of a corresponding dynamic route

a route with a metric greater than the metric of a corresponding dynamic route

a route with an administrative distance less than the administrative distance of a corresponding dynamic route

a route with an administrative distance greater than the administrative distance of a corresponding dynamic route*

2 The OS ! routing protocol is enabled on a networ"# The administrator would li"e to ena floating static route to be used as a bac"up# Which is the correct setting for theadministrative distance of the floating static route?

$

1

%$

1$$

12$*

& The following line was displayed in the output of the show ip route command'

192.168.3.0/24 [120/2] via 192.168.2.2, 00:00:30, Serial0/0

Which routing protocol is the source for this route?()

+),

O-,

OS !

,+ *

. What is the administrative distance of +), /learned routes that have been in0ected in+), via redistribution?

1

$

1$$

11$

1 $*
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13$

% !or O-, learned routes4 what is the default administrative distance and metric thatdisplayed by the show ip route command?

516$7$8

516$718*

51 $7$8

51 $718

6 Which feature best defines the function of the + 3$2#19 standard in the enterprisearchitecture?

port level access control*

priority to real/time traffic

minimi:ing delay and 0itter

provision for server load balancing

Which type of networ" traffic requires high reliability and security but can sustain a lowbandwidth connection in a converged networ"?

!T traffic

+ telephony traffic

transactional traffic*

voice application traffic

video conferencing traffic

3 What is one role of ;oS in a converged networ"?to ensure that real/time traffic is not delayed*

to ensure that highest priority is given to transactional traffic

to ensure that all traffic above available bandwidth levels is dropped

to ensure that the interface bandwidth setting matches the actual data throughput


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What are two +ntelligent +nformation ++


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1& +n which -+OO phase is the actual networ" configured and verified?-esign hase

+mplement hase*

Operate hase

Optimi:e hase

lan hase

repare hase

Which two statements are true about an implementation plan approach? > hoose two#@

+n an ad hoc approach4 the isco Bifecycle Services framewor" could be used to complete a tas"#

+n an ad hoc approach4 the networ" engineer identifies the need for a change and implements the solution without planning anytas"s*#

+n an ad hoc approach4 the networ" engineer identifies the need for a change and starts with planning as the first step#

+n a structured approach4 it is more li"ely that scalability issues4 suboptimal routing4 and security issues will occur#

+n a structured approach4 the !ault4 onfiguration4 Accounting4 erformance4 and Security >! A S@ model could be used to coma tas"#*

+n a structured approach4 the networ" engineer identifies the need for an upgrade and starts with configuring as the first step#

1% Which two statements are true about the structured approach model? > hoose two#@The isco Bifecycle Services approach defines si9 phases including the prepare4 plan4 design4 implement4 operate4 and optimiphases#*The !ault4 onfiguration4 Accounting4 erformance4 and Security >! A S@ model identifies the implementation plan in the !amanagement category#The !ault4 onfiguration4 Accounting4 erformance4 and Security >! A S@ model identifies the implementation plan and theimplementation as part of ! A S best practices#The +T +nfrastructure Bibrary >+T+B@ model is defined by the +nternational Organi:ation for Standardi:ation >+SO@#

The repare4 lan4 -esign4 +mplement4 Operate4 and Optimi:e > -+OO@ model identifies the implementation plan as part of t-esign phase and the actual implementation as part of the +mplement phase#*The Telecommunications Canagement


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16 Which three steps are completed in the first three phases of the repare4 lan4 -esign4+mplement4 Operate4 and Optimi:e > -+OO@ model? > hoose three#@

Archive the documentation for future use#

haracteri:e the e9isting networ" and sites#*

-esign the networ" topology and solutions#*

+dentify customer requirements#*

+mplement and verify the design#

Conitor and optionally redesign#

1 Which two steps are completed in the last three phases of the repare4 lan4 -esign4+mplement4 Operate4 and Optimi:e > -+OO@ model? > hoose two#@

haracteri:e the e9isting networ" and sites#

onfigure and verify the design#*

-esign the networ" topology and solutions#

-ocument the e9isting networ" information#

+dentify customer requirements#

Conitor and optionally redesign#*

13 The A( orporation implements the networ" for its new headquarters via the use of thisco nterprise Architecture# The networ" administrator wants to filter the traffic from a

the outside world# Where should the administrator deploy a firewall device?server farm

enterprise edge*

enterprise campus

service provider edge

1 When designing a networ" infrastructure4 a networ" engineer will use the hierarchicalnetwor" model# What two factors must be ta"en into account when designing the core la


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> hoose two#@pac"et manipulation to prioriti:e the flow of core data

redundant lin"s to ensure fault tolerance*

routing protocols that are chosen for the speed of networ" convergence*

access control lists to curtail core layer traffic

star networ" topologies to reduce core layer latency

2$ Which two functions are performed at the distribution layer of the hierarchical networ"model? > hoose two#@

summari:ing routes from the access layer*

providing high/speed bac"bone switching services

allowing end users to access the local networ"

providing the gateway of last resort for core layer devices

isolating networ" problems to prevent them from affecting the core layer*

CHAPTER 2

1
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,efer to the e9hibit# A networ" administrator has configured ,1 and ,2 for +), authentimultiple "eys and activation times# After functioning normally for a month4 ,1 and ,2 are nforming an +), ad0acency# Which configuration change to the "ey lifetimes will correct tad0acency problem?

hange the "ey 1 accept life to an end time of !eb 1 on both routers#hange "ey 2 send lifetime to a start time of Dan 1 on both routers#

hange the "ey 1 send lifetime to an end time of !eb 1 on both routers#*

2 Which event must ta"e place to transition an +), route that is in the active statethe passive state?

e9piration of the ,TO timer

an update pac"et that is received from every +), neighbor

an ac"nowledgment that is received from every +), neighbor

a reply that is received from each neighbor for every generated query *

a feasible successor route that is moved from the topology table to the routing table

& Which +), pac"et type can quic"ly propagate through a networ" and result in e9cecomputations and high E loads?

ac"nowledgment

hello

reply

update

;uery *

. When does an +), router place a route in the active state?when there is no successor route in the routing table

when the feasible distance is greater than the reported distance of the route

when an update pac"et containing information about the route is not ac"nowledged

when the current successor is no longer valid and there is no feasible successor in the topology table *

% Which two solutions are used in an +), networ" to reduce -EAB computations? > hauthentication

load balancing

partial updates


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Summari:ation *

+), stub routing *

6 Which two statements are true of +), topology depth? > hoose two#@

Topology depth should be limited to 1% routers#

,edundant lin"s and alternative paths can be used to reduce topology depth#

Topology depth is the ma9imum hop count between any two +), routers in the topology#

,oute summari:ation can reduce the convergence time in networ"s with large depth# *

Topology depth is the number of router hops necessary for traffic to reach from access layer to core layer#

Topology depth refers to the total number of hops that information must travel to reach all +), routers in the networ"# *

Which +), algorithm trac"s all the routes that are advertised by neighbors and uses t

metric of each route to compare the routes?ST

-i0"stra

-EAB *

S !

3 Which three technologies are used in +), ? > hoose three#@-i0"stra algorithm

-EAB finite/state machine *reliable transport protocol *

lin"/state advertisements

protocol/specific modules *

(ellman/!ord algorithm


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,efer to the e9hibit# (ased on the output of show ip eigrp neigh ors 4 what are twoproblems with ad0acencies between ,outer1 and ,outer2? > hoose two#@

The routers are configured with different +), AS numbers# *

Automatic summari:ation was disabled#

The hello timer for ,1 was altered#

The serial interfaces for both routers are in different networ"s#

1$

,efer to the e9hibit# -uring a test of an +), prototype networ"4 a networ" administratshow ip proto!ols command# What two facts can be determined from the output? > ho
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The administrative distance is 1$$#

This router will not accept routes that are more than 1$$ hops away#

There are 1$ isco devices in this prototype networ"#

The auto"su##ar$ command was applied on this router#

+), is using two values for the calculation of the composite metric#

+), on this router will display up to four unequal cost routes to the same destination#

11 A router in a fully converged +), networ" detects that a remote route is unreachable#events may occur ne9t? > hoose two#@

+), will loo" for a feasible successor in the routing table#

-EAB will calculate the highest cost routes to each networ"#

+), will send a bounded update to alert neighbors about the failure# *

The router will forward the complete routing table to the neighboring routers#

*-EAB will loo" for a feasible successor route in the topology table and4 if one is found4 it will add this route to the routing tabl

12

,efer to the e9hibit# All three routers are e9changing +), routes# What value represeadvertised distance of the feasible successor for the 1$#1#2#$72. networ"?
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2%6

%&2 *

63

123$

1&

,efer to the e9hibit# Which statement is true of the +), "eys that are used by router,2 is encrypting +), pac"ets with only "ey 1#

,2 is encrypting +), pac"ets with both "ey 1 and "ey 2#

,2 is using only "ey 2 to authenticate received +), pac"ets# *

,2 is authenticating received +), pac"ets with both "ey 1 and "ey 2#

1. Which action is effective in preventing +), routes from becoming S+A?Ese multiple +), autonomous systems to bound the query range#

Codify "eepalive timers on point/to/point connections#

Caintain a hierarchical networ" design# *

Feep F/values at default settings#

1% What are two advantages to deploying a hierarchical + addressing scheme in an +),> hoose two#@

greater redundancy

improved scalability *

ability to use networ" route summari:ation *

better route optimi:ation creating shorter paths

fewer networ" addresses that need to be allocated for the networ"

16 Which statement is a requirement for the +), AS number?+t is the +), router +- and must be the same on each router in the +), domain#


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+t is only locally significant4 and as a result it can be different on each router in the +), domain#

+t is selected by the networ" administrator and must be the same on each router in the +), domain#

+t is assigned by +A hoose two#@improved bandwidth utili:ation *

less li"ely to have routing loops

faster convergence

better control over traffic patterns *

more efficient troubleshooting

13 Which design plan or diagram would govern how well +), will scale?+ addressing plan *

ST topology diagram

Bayer 2 addressing plan

detailed cabling plan

+), traffic engineering plan

1

The networ" administrator wants ,TA to send only the summari:ed route of 1$#1$#$#$71Which configuration will accomplish this?

,TA>config@G inter%a!e s0/0 ,TA>config/if@G ip su##ar$"a&&ress eigrp 101 10.10.0.0 2''.2''.0.0 ,TA>config/if@G e(it ,TA>config@G router eigrp 101
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,TA>config/router@G no auto"su##ar$

,TA>config@G inter%a!e s0/1 ,TA>config/if@G ip su##ar$"a&&ress eigrp 101 10.10.0.0 2''.2''.0.0 *,TA>config/if@G e(it ,TA>config@G router eigrp 101 ,TA>config/router@G no auto"su##ar$

,TA>config@G inter%a!e s0/0 ,TA>config/if@G ip su##ar$"a&&ress eigrp 101 10.10.0.0 2''.2''.0.0

,TA>config@G inter%a!e s0/1 ,TA>config/if@G ip su##ar$"a&&ress eigrp 101 10.10.0.0 2''.2''.0.0

2$

,efer to the e9hibit# Which statement is true about the +), hello pac"ets that are recrouter ,2?

They are encrypted#

They are authenticated# *

They are sent confidentially#

They must be ac"nowledged#

ROUTE Chapter 3 CCNP 6.0 2012

1. Which OSPF networ t!pe re"#ire$ the e%ection o& a 'R()'R*

broadcast *

point+to+point

point+to+,#%tipoint
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point+to+,#%tipoint non-roa ca$t

2. /n an OSPF h#-+an +$po e topo%o ! what nee $ to -e one toen$#re that the $po e ro#ter$ wo#% ne er -e $e%ecte a$ 'R an )'R*)eca#$e non-roa ca$t networ $ o not e%ect a 'R()'R nothin nee $ to -e one.

A%% ro#ter$ ,#$t -e con #re with an OSPF inter&ace priorit! o& 0 4ip o$p& priorit!5 to i$a-%e the 'R()'R e%ection proce$$.

All spoke routers need to be confgured with an OSPF inter ace priorityo 0 (ip osp priority) so that they will not beco e the !"#$!"% *

One o& the $po e ro#ter$ wi%% nee to -e con #re a$ the 'R -! $ettin

the OSPF inter&ace priorit! hi her than 1 4ip o$p& priorit!5.

3. A networ a ,ini$trator i$ i,p%e,entin OSPF in a portion o& the networ an,#$t en$#re that on%! $peci c ro#te$ are a erti$e ia OSPF% Which networ $tate,ent wo#% con #re the OSPF proce$$ &or net

wor $ 1 2.167.8.0 1 2.167.9.0 1 2.167.6.0 an 1 2.167.:.0 now %ocate in the -ac -one area an in;ect the, into the OSPF o,ain*

r14con +ro#ter5< networ 1 2.167.0.0 0.0.0.299 area 1




r&(confg'router) network & %&+,%-%0 0%0%.% // area 0 *


8. What two a anta e$ oe$ a#thentication pro i e that $ho#%-e con$i ere when p%annin an OSPF i,p%e,entation* 4Choo$e two.5


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/t re #ce$ OSPF in&or,ation e=chan e o erhea .

/t encr!pt$ ro#tin ta-%e$ to pre ent #na#thori>e iewin .

t pre1ents routing in or ation ro being alsifed in transit% *

t ensures that routing in or ation co es ro a 1alid source router% *

/t en$#re$ that OSPF ro#tin in&or,ation ta e$ priorit! o er R/P or E/?RP #p ate$.

9. When wi%% a ro#ter in an OSPF non-ac -one area recei e a e&a#%t ro#te &ro, the A)R or AS)R* 4Choo$e three.5

when the area i$ a nor,a% area

when the area i$ a NSSA $t#- area

when the area is a totally stubby area *

when the area i$ a NSSA tota%%! $t#--! area @

when the area i$ connecte to the -ac -one area #$in a irt#a% %in

when the area i$ a nor,a% area an the AS)R ha$ -een con #re with the e&a#%t+in&or,ation ori inate a%wa!$ co,,an @

6. What aretwo rea$on$ &or creatin an OSPF networ with ,#%tip%e area$*

4Choo$e two.5 to protect a ain$t the &act that not a%% ro#ter$ $#pport the OSPF -ac -one areato en$#re that an area i$ #$e to connect the networ to the /nternet

to re #ce SPF ca%c#%ation$ @

to re #ce #$e o& ,e,or! an proce$$or re$o#rce$ @

to $i,p%i&! con #ration

:. What oe$ OSPF #$e to ca%c#%ate the co$t to a e$tination networ *

-an wi th @

-an wi th an hop co#nt

-an wi th an re%ia-i%it!

-an wi th %oa an re%ia-i%it!


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7. Which three ite,$ ,#$t ,atch -etween OSPF nei h-or$ in or er to &or,

an a ;acenc!* 4Choo$e three.5

he%%o( ea inter a% @area /' @

priorit! /'

a#thentication t!pe @

. Re&er to the e=hi-it. When OSPF i$ operationa% an con er ewhat nei h-or re%ation$hip i$ e e%ope -etween Ro#ter1 an Ro#ter2*

A FU a ;acenc! i$ &or,e . @

A 2WAB a ;acenc! i$ &or,e .

Ro#ter2 wi%% -eco,e the 'R an Ro#ter1 wi%% -eco,e the )'R.

)oth ro#ter$ wi%% -eco,e 'ROTHERS.

10. A %%! con er e e ro#ter OSPF networ ha$ -een r#nnin $#cce$$%%! &or $e era% wee $. A%% con #ration$ ha e -een $a ean no $tatic ro#te$ are #$e . /& one ro#ter %o$e$ power an re-oo

t$ what in&or,ation wi%% -e in it$ ro#tin ta-%e a&ter the con #ration %e i$ %oa e -#t -e&ore OSPF ha$ con er e *

A%% ro#te$ &or the entire networ wi%% -e pre$ent.

'irect%! connecte networ $ that are operationa% wi%% -e in the ro#tin ta-%e. @

)eca#$e the SPF a% orith, ha$ not co,p%ete a%% ca%c#%ation$ no ro#te$

wi%% -e in the ta-%e.

A $#,,ar! ro#te &or a%% pre io#$%! %earne ro#te$ wi%% a#to,atica%%!

appear in the ro#tin ta-%e #nti% a%% SP$ ha e -een recei e -! thero#ter.

11. What are two e ect$ o& #$in ,#%tip%e OSPF area$ that re #ce-an wi th an ro#ter o erhea * 4Choo$e two.5

pre ention o& a Doo o& "#erie$


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re #ction in the $i>e o& the S') @

re #ction in the $i>e o& the nei h-or ta-%e

%i,it$ on the propa ation o& t!pe 1 an 2 SA$ @

ecrea$e in the n#,-er o& 'R an )'R e%ection$

12. What i$ the nction o& the OSPF SU pac et*

to anno#nce new OSPF in&or,ation @

to con r, receipt o& certain t!pe$ o& OSPF pac et$

to re"#e$t ,ore in&or,ation a-o#t an! entr! in the )'R

to e$ta-%i$h an ,aintain a ;acenc! with other OSPF ro#ter$

13.Re&er to the e=hi-it. How oe$ the ro#ter treat the a#thentication

o& OSPF pac et$ that enter an %ea e Fa$tEthernet inter&ace 0(0* OSPF pac et$ are $ent with a#thentication e! 10 on%!.

OSPF pac et$ are $ent with a#thentication e! 20 on%!.

Two copie$ o& e er! OSPF pac et are $ent one with e! 10 an one with e! 20. @

e! 10 i$ #$e to a#thenticate inco,in pac et$ an e! 20 i$ #$e to a#thenticateo#t oin pac et$.


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18.Re&er to the e=hi-it. Which t!pe o& OSPF pac et$ are repre$ente-! the e-# co,,an o#tp#t*

%in +$tate re"#e$t pac et$ $ent with p%ain+te=t a#thentication

he%%o pac et$ $ent with a '9 ha$he a#thentication e! i o& 100 @

he%%o pac et$ $ent in $i,p%e a#thentication with a pa$$wor o& !o#n e$t

%in +$tate #p ate pac et$ $ent encr!pte with a 100 -it a#thentication e!

19.Re&er to the e=hi-it. What e$tination a re$$ wi%% RT) #$e to aerti$e SA$*

228.0.0.9

228.0.0.6 @

10.1.:.1:

1:2.16.1.1


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1:2.16.2.1

299.299.299.299

16. Which two $tate,ent$ are correct a-o#t OSPF ro#te $#,,ari>ation* 4Choo$e two.5

A#to,atic OSPF ro#te $#,,ari>ation i$ per&or,e -! the A)R.

The ,etric o& the $#,,ar! ro#te i$ e"#a% to the %owe$t co$t networ within the $#,,ar! a re$$ ran e. @

The area /& range &2 %0%0%0 //%0%0%0 co,,an i enti e$ area 91 a$ the area that contain$ the ran e o& networ $ to -e $#,,ari>e . @

OSPF can per&or, a#to,atic $#,,ari>ation on ,a;or c%a$$% networ -o#n arie$ een i& no $#,,ari>ation co,,an $ are entere &ro, the C /.

1:. Which two $tate,ent$ are correcta-o#t OSPF NSSA area$* 4Choo$e two.5

The NSSA i$ a Ci$co proprietar! area t!pe.

T!pe : SA$ are tran$%ate to t!pe 9 SA$ -! the A)R. @

T!pe : SA$ are ori inate -! the AS)R that i$ connecte to the NSSA. @

T!pe : SA$ are enote in the ro#tin ta-%e o& an NSSA interna% ro#ter a$ E1 or E2.

)oth NSSA $t#- an tota%%! $t#--! area$ ha e a e&a#%t ro#te that i$ in;ecte into the NSSA area -! A)R.

17. How can correct OSPF topo%o ! chan e+-eha ior -e eri e a$ part o& an i,p%e,entation p%an*

'e-# the 'UA nite $tate ,achine.

Re iew the r#nnin con #ration %e.

Chec the topo%o ! ta-%e &or S/A ro#te$.

Te$t %in &ai%#re an ro#ter &ai%#re e ent$. @

1 . What i$ the correct ,etho to con #re ro#te $#,,ari>ationon an OSPF ro#ter*

Con #re OSPF an in$tr#ct the A)R to $#,,ari>e $peci c area ro#te$. @

Con #re OSPF an in$tr#ct the AS)R to $#,,ari>e interna% area ro#te$.


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Con #re the A)R an AS)R to $#,,ari>e ro#te$ on an inter&ace -a$i$.

'o nothin -eca#$e $#,,ari>ation i$ on -! e&a#%t.

20. Which co,,an can -e #$e to eter,ine the $ta-i%it! o& anOSPF area -! e=a,inin the n#,-er o& ti,e$ SPF ha$ -een e=ec#te &or that area*

$how ip o$p& @

$how ip ro#te

$how ip protoco%$

$how ip o$p& ata-a$e

ROUTE Chapter 8 CCNP 6.0 2012


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1.

Re&er to the e=hi-it. Two+wa! re i$tri-#tion wa$ con #re

-etween OSPF an R/P on R2. A&ter the re i$tri-#tion R3 oe$ not$ee an! e=terna% ro#te$ co,in &ro, the R/P o,ain. The e-#ip o$p& ata-a$e e=terna% o#tp#t re ea%$ that no e=terna% SA$ are

enerate &or the ro#te$. What co#% the pro-%e, -e*

A $#-net$ e!wor i$ ,i$$in &ro, the R2 con #ration. @

An area 0 $t#- co,,an i$ ,i$$in &ro, the R2 con #ration.

A e&a#%t+,etric co,,an i$ ,i$$in &ro, the R2 con #ration.

A i$tri-#te+%i$t in Seria%0(1 co,,an on R3 i$ -%oc in a%% o& the #p ate$ co,in&ro, R2.


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2. Re&er to the e=hi-it. RTAha$ two path$ to networ 10.0.0.0(7 ia two $eria% %in $ Seria%

0(0(0 to RT) an Seria% 0(0(1 to RTC. RTA i$ not r#nnin an!!na,ic ro#tin protoco% an it$ pre&erre ro#te to networ10.0.0.0(7 i$ ia RTC. Which co,,an $ on RTA wo#% con #re itto #$e RT) to reach networ 10.0.0.0(7 on%! i& the $eria% %in toRTC &ai%$*ip ro#te 10.0.0.0 299.0.0.0 Seria% 0(0(0ip ro#te 10.0.0.0 299.0.0.0 Seria% 0(0(1 130ip ro#te 10.0.0.0 299.0.0.0 Seria% 0(0(1 @ip ro#te 10.0.0.0 299.0.0.0 Seria% 0(0(0 130 @ip ro#tin

ip e&a#%t+networ 10.0.0.0ip ro#te 10.0.0.0 299.0.0.0 Seria% 0(0(0no ip ro#tinip e&a#%t+ atewa! 10.0.0.0ip ro#te 0.0.0.0 0.0.0.0 Seria% 0(0(1

3. What i$ the na% $tep when con #rin po%ic!+-a$e ro#tin * 'e ne acce$$ %i$t$.Con #re po%ic! with the #$e o& the ro#te+,ap co,,an .App%! po%ic! to an inter&ace #$in ip po%ic! ro#te+,ap co,,an . @App%! ,atch co,,an $.

8. Which pre =+%i$t entr! wi%% -e #$e when ,#%tip%e entrie$ in apre = %i$t ,atch a i en pre =*a%% ,atchin entrie$entr! with the %owe$t $e"#ence n#,-er @


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entr! with the %ar e$t $e"#ence n#,-erentr! with the %on e$t pre = ,a$ %en th

9. Which ,etho o& re i$tri-#tion i$ %ea$t %i e%! to intro #ce aro#tin %oop into a networ * one+wa!two+wa!one+point @,#%tipoint

6.

Re

&er to the e=hi-it. A networ en ineer wa$ ca%%e to in e$ti ate $o,e inter,ittent e%a! an ;itter i$$#e$ with the corporate networthat i$ $hown. The en ineer eter,ine that the root ca#$e i$ thatthe ro#tin ta-%e$ in the i$trict ro#ter$ are $o %ar e that the ro#ter$ cannot ,aintain the ta-%e$ eGcient%!. What can -e one to ,iti

ate thi$ i$$#e*


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/,p%e,ent a c%a$$% ro#tin protoco%.U$e OSPF a$ the ro#tin protoco% -etween the re iona% ro#ter$.Ena-%e a#to$#,,ari>ation on the WAN %in $ &ro, the re iona% ro#ter$ tothe i$trict ro#ter$.Fro, the re iona% ro#ter$ a erti$e on%! e&a#%t ro#te$ to i$trict ro#ter$ an %ter o

#t a%% re,ainin networ $. @ :.

Re&er to the e=hi-it. Which co,,an wa$i$$#e to i$p%a! the ro#te ,etric an ,ini,#, TU in&or,ationthat i$ $hown* $how ip ro#te ,etric$$how ip ro#te 131.11 .0.0 @$how ip ro#te ,etric 131.11 .0.0$how ip ro#te ,etric+,t#

7. Which co,,an wo#% a%%ow a erti$in on%! an a re ate a

re$$ o& 1 2.167.0.0(16 when app%ie -! #$in a nei h-or $tate,ent that contain$ pre =+%i$t pre =+%i$t na,eI o#t* per,it 1 2.167.0.0(0 %e 16per,it 1 2.167.0.0(16 @per,it 1 2.167.0.0(16 e 16per,it 1 2.167.0.0(16 e" 16


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. Re&er t

o the e=hi-it. The networ that i$ $hown i$ operatin nor,a%%! with the ro#tin protoco%$ con #re with the e&a#%t $ettin $. Whatpath wi%% pac et$ &ro, PC1 ta e to the %e $er er*AR2+'R1AR3+'R1AR2+AR3+'R1AR3+AR2+'R1 @

10. Which i$ the e&a#%t $ee ,etric &or an OSPF ro#te that i$ re i$tri-#te into an E/?RP a#tono,o#$ $!$te,* /n nit! @120

01101:0


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11. Which co,,an wo#% ep%o! a pre = %i$t in a )?P en iron,ent* ip pre =+%i$t i$tri-#teip - p pre =+%i$t i$tri-#tenei h-or ip a re$$I pre =+%i$t pre =+%i$t+na,e in(o#tI @nei h-or ip a re$$I pre =+%i$t+na,e in(o#tI

12.Re&er to the e=hi-it. The E/?RP $#-net$ $#ch a$ 10.10.0.0(16 an10.20.0.0(16 are not -ein $een in$i e the OSPF o,ain. What i$a po$$i-%e rea$on &or thi$*

The re i$tri-#te co,,an i$ ,i$$in the $#-net$ e!wor in the OSPF con #ration. @

The networ $tate,ent &or E/?RP i$ ,i$$in the networ ,a$ con #ration. The ,etric con #ration &or OSPF i$ $et too hi h.A $ee ,etric &or E/?RP ha$ not -een $et.

13. A ro#ter ha$ %earne the ro#te 1 2.167.298.0 (28&ro, ,#%tip%e $o#rce$.

The$e $o#rce$ are a$ &o%%ow$J+ R/P 1 ro#te with a ,etric o& 12+ E/?RP with a ,etric o& 12967+ OSPF E2 ro#te with a ,etric o& 129+ E/?RP e=terna% ro#te with a ,etric o& 387+ OSPF t!pe 1 ro#te with a ,etric o& 632+ OSPF ro#te with a ,etric o& 8What ro#te wi%% -e in;ecte into the ro#tin ta-%e* ' with ,etric o& 12967 @E1 with a ,etric o& 632E2 with a ,etric o& 129


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EK with a ,etric o& 387O with a ,etric o& 8R with ,etric o& 12

18. Which criterion ,#$t -e ,et -e&ore a ro#te

can -e re i$tri-#te into another ro#tin protoco%* )e irect%! connectee=i$t in the ro#tin ta-%e @-e %earne thro# h a !na,ic ro#tin protoco%-e %earne&ro, a i erent ro#tin protoco% than the protoco% into which it i$ re i$tri-#teha e an a ,ini$trati e i$tance that i$ reater than thato& the ro#tin protoco% into whichit i$ -ein re i$tri-#te

19.

Re&er to the e=hi-it. A networ en ineer wa$ ca%%e to in e$ti ate $o,e


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inter,ittent e%a! an ;itter i$$#e$ with the corporate networ that i$ e=hi-ite . The en ineer eter,ine that the root ca#$e o& thei$$#e i$ e=ce$$i e ro#tin #p ate$. What $o%#tion wo#% ,iti ate thi$ i$$#e*

Re+a re$$ the corporate networ to a%%ow $#,,ari>ation. @/,p%e,ent R/P 1 c%a$$% ro#te $#,,ari>ation.U$e OSPF a$ the ro#tin protoco% -etween the re iona% ro#ter$.

i rate the ro#tin protoco% to ,#%tiarea OSPF to $#,,ari>e networ $.

16.

Re&er to the e=hi-it. Bo# ha e -een a$ e to in e$ti ate wh! #$er$ in


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the 'i$trict 2 oGce$ are e=periencin long delays whenacce$$in their e+,ai%. A&tera pre%i,inar! in e$ti ation !o# eter,ine that thero#te to the 'i$trict 1 $er er &ar,

in the 'i$trict 2 ro#ter i$ thro# h there iona% oGce $witch. What can -e one to re$o% e thi$ &a#%t*

a e the WAN inter&ace$ on the i$trict ro#ter$ pa$$i e E/?RP inter&ace$.On the

i$trict ro#ter$ %ower the OSPF co$t to 1 on the inter&ace$ -etween the ro#ter$.On the i$trict ro#ter$ chan e the e&a#%t ,etric o& the E/?RP ro#te$ that are -einin;ecte to 10000.

o i&! the a ,ini$trati e i$tance o& OSPF to 70 on thei$trict ro#ter$ &or the ro#te$ that

are inc%# e in 10.0.0.0 (7. @

1:. Which $tate,ent -e$t e$cri-e$ the ro#te ta in a R/P 2 pacet*

The ro#te ta contain$ a 32+-it ,a$ that i enti e$ the networ an $#-net portiono& the /P a re$$./t contain$ the /P a re$$ o& the ne=t hop that i$ %i$te in the /P A re$$ e% ./t in icate$ how ,an! internetwor hop$ or ro#ter$ ha e -een tra er$e in the trip to the e$tination./t i erentiate$ -etween a re"#e$t &or a %% ro#tin ta-%e or apartia% ro#tin #p ate #e to a topo%o !chan e.

/t i erentiate$ -etween ro#te$ that are %earne within the a#tono,o#$ $!$te, antho$e that werere i$tri-#te into the ro#tin proce$$. @

17.Re&er to the e=hi-it. A&ter con #rin two+wa! re i$tri-#tion an


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a ,ini$trator notice$ that none o& the E/?RP ro#te$ are -ein aerti$e in the OSPF networ . What i$ a po$$i-%e rea$on that the ro#te$ are not -ein a erti$e *

The wron E/?RP AS i$ -ein re i$tri-#te . @ The ,etric a%#e i$ wron &or the re i$tri-#te co,,an #n er E/?RP. The ,etric a%#e i$ wron &or the re i$tri-#te co,,an #n er OSPF. The $#-net$ e!wor i$ ,i$$in on the re i$tri-#te co,,an #n er OSPF.

1 .

Re&er to the e=hi-it. A networ en ineer wa$ ca%%e to in e$ti ate $o,e inter,ittent e%a! an ;itter i$$#e$ with the corporate networthat i$ e=hi-ite . The en ineer eter,ine that the root ca#$e o& the i$$#e i$ e=ce$$i e ro#tin #p ate$. What $o%#tion wo#% ,iti ate thi$ pro-%e,*Ena-%e OSPF a#to$#,,ari>ation on a%% the ro#ter$./,p%e,ent R/P 1 c%a$$% ro#te $#,,ari>ation.Create an OSPF area &ro, each inter&ace on the re iona% ro#ter$ to$#,,ari>e a erti$e,ent$. @


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Con #re the WAN inter&ace$ o& the i$trict ro#ter$ to $#,,ari>e thero#te$ into the re iona% ro#ter$.

20.

Re&er to the e=hi-it. How wi%% ro#ter RTA re i$tri-#te ro#te$ -etweenthe two a#tono,o#$ $!$te,$* Ro#te re i$tri-#tion wi%% not -e $#cce$$% in either irection.

One+wa! re i$tri-#tion wi%% occ#r with E/?RP ro#te$ -ein re i$tri-#teinto R/P.One+wa! re i$tri-#tion wi%% occ#r with R/P ro#te$ -ein re i$tri-#teinto E/?RP. @

Two+wa! re i$tri-#tion wi%% occ#r with R/P ro#te$ -ein re i$tri-#teinto E/?RP an then -ac into R/P.

ROUTE Chapter 5 CCNP 6.0 2012 1. Ro#tin protoco% con er ence ti,e wo#% -e an e=a,p%e o&which pathcontro% con$i eration*adaptability

availability *

performa !e

predi!tability


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re"ilie !y

2. # $%P ro&ti ' poli!y ha" bee !reated &"i ' ro&te map". The !omma d

ro&te(map TE)T permit 10 i" part of the !o fi'&ratio . hat doe" the

ar'&me t 10 i di!ate+,t ide tifie" the a!!e"" li"t &mber to be &"ed by the ro&te map "tateme t.

,t ide tifie" the po"itio of the ro&te map i relatio to other i "ta !e". *

,t i di!ate" the lo!al prefere !e to be "et for ro&te" that mat!h the ro&te map.

,t i di!ate" the metri! to be "et for ro&te" that mat!h the ro&te map.

,t "pe!ifie" the ro&te map to be &"ed o a&to omo&" "y"tem 10.

-. Refer tothe e hibit. hat /o&ld be the R,P ro&ti ' metri! for the "&b et" of the 2.16.0.0 16 et/or othe R2 ro&ter after the !o fi'&ratio i the e hibit /a" applied to the R1 ro&ter+

1

2

-

3 *

5


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3. Refer tothe e hibit. The ro&ti ' poli!y for ro&ter R1 "tate" that traffi! from the 142.16 .1.0

#N et/or i" to be ro&ted to ,)P(1 a d traffi! from the 1 2.16.1.0 #Net/or i" to be ro&ted to ,)P(2. 7o/ever8 the et/or admi i"trator oti!e" that a

ho"t at ,P addre"" 1 2.16.1.10 i" bei ' ro&ted o&t )erial0 0 0. hat i" the !a&"e ofthe problem+The ro&te map ,)P(1 "ho&ld be applied to )erial0 0 0.

The ro&te map ,)P(2 "ho&ld be applied to 9a"tEther et0 1. *

The ro&te map" are applied to oppo"ite i terfa!e".

There i" a i !orre!t a!!e"" li"t 1 "tateme t.

There i" a i !orre!t a!!e"" li"t 2 "tateme t.

5. hat are three a!!&rate de"!riptor" of the f& !tio ality of the Ci"!o ,O) ,P ) #feat&re+ :Choo"e three.; the $en in o& $i,#%ate ata @app%ie$ on%! to i$tance ector protoco%$


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the %terin o& ro#tin #p ate$ to an &ro, nei h-or$a re"#ire,ent that NTP -e con #re on $o#rce an re$pon er @pro i$ion o& a ,echani$, to ,ar pac et$ with i erent ToS

eri cation that the TCP or U'P port$ on a tar et are acti e an re$pon$i e @

6.Re&er to the e=hi-it. )a$e on the in&or,ation that i$ pre$ente which $tate,ent i$ tr#e* Acce$$ %i$t 1 $peci e$ that pac et$ with a e$tination a re$$ o& 1 2.167.1.0 wi%% -epo%ic! ro#te .Acce$$ %i$t 2 $peci e$ that pac et$ with a $o#rce a re$$ o& 1:2.16.1.0 wi%% -e po%ic!ro#te . @Pac et$ that ,atch acce$$ %i$t 1 wi%% -e $ent to the ne=t+hop a re$$ 1:2.1:.1.2.Pac et$ that ,atch acce$$ %i$t 2 wi%% -e enie acce$$.)oth ,atch $tate,ent$ ,#$t -e tr#e &or the /SP1 ro#te ,ap to -e tr#e.

:. What i$ the p#rpo$e o& #$in an o $et %i$t when i,p%e,entin path contro% in E/?RP* to ,ea$#re E/?RP #p ate$ an then trap the, once the! ,eet a $peci c thre$ho%to %ter E/?RP #p ate$ in a contin#o#$ re%ia-%e an pre icta-%e ,annerto increa$e inco,in an o#t oin ,etric$ to ro#te$ %earne -! E/?RP @to ca#$e the ro#ter to e a%#ate &or incon$i$tencie$ a%% pac et$ that co,e into an inter&ace

7.L#a%it! o& Ser ice 4LoS5 an Ci$co 3ide Area App%ication Ser ice$ 4WAAS5 are two e=a,p%e$ o& which path contro% con$i eration* re$i%ienc!a ai%a-i%it!


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a apta-i%it!per&or,ance$#pport &or networ an app%ication $er ice$ @

.Re&er to the e=hi-it. On the -a$i$ o& the in&or,ation pre$ente which two /P S A re%ate $tate,ent$ are tr#e* 4Choo$e two.5 /P S A i$ ,ea$#rin ;itter./P S A i$ $che #%e to -e in in 2 ho#r$./P S A i$ $en in echo re"#e$t$ e er! 10 $econ $. @/P S A i$ $en in echo re"#e$t$ &ro, /P a re$$ 1 2.167.2.1./P S A wa$ con #re with the t!pe n$ tar et+a r 1 2.167.2.1 co,,an ./P S A wi%% r#n &ore er #n%e$$ e=p%icit%! i$a-%e . @

10. Which two e$cription$ are acc#rate a-o#t the path contro%nctiona%it! o& o $et %i$t$* 4Choo$e two.5 #$e to increa$e ,etric$ @#$e to increa$e a ,ini$trati e i$tancepro i e$ a ,echani$, to ,ar pac et$ with ToScan -e app%ie to on%! the in-o#n irection on an inter&acecan -e app%ie to ro#te$ that are %earne ia !na,ic ro#tin protoco%$


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can -e app%ie on%! to ro#te$ that are %earne ia i$tance ector protoco%$ @ 11. Which two /P S A path contro% $tate,ent$ are tr#e* 4Choo$e two.5 An /P S A operation i$ a ,ea$#re,ent that inc%# e$ protoco% &re"#enc! trap$ an thre$ho% $. @/OS /P S A i$ a ,echani$, &or increa$in inco,in an o#t oin ,etric$ to ro#te$ that are %earne ia R/P or E/?RP.

The /OS /P S A &eat#re a%%ow$ per&or,ance ,ea$#re,ent$ -etween a Ci$co e ice an another Ci$co e ice or a ho$t. @

The /OS /P S A &eat#re can on%! ,ea$#re per&or,ance $tati$tic$ -etween a Ci$co eice an a ho$t.

The /OS /P S A &eat#re can on%! ,ea$#re per&or,ance $tati$tic$ -etween Ci$co e ice$.

The /OS /P S A &eat#re i$ on%! con #ra-%e #$in the co,,an +%ine inter&ace 4C /5.

12.

R


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e&er to the e=hi-it. R/P 2 i$ con #re on ro#ter$ in the networ .Whichco,,an $ wo#% an a ,ini$trator i$$#e on the R3 ro#ter in or er&ortra4c to take the astest path ro "- to the & %&+,%&

%0 network on the R1 ro#ter*ro#ter ripi$tri-#tion+%i$t 1 o#t

acce$$+%i$t 1 per,it 1 2.167.1.0 0.0.0.299ro#ter rip @o $et+%i$t 1 in 9 $eria% 0(0(0 @acce$$+%i$t 1 per,it 1 2.167.1.0 0.0.0.299 @ ro#ter ripo $et+%i$t 1 o#t 9 $eria% 0(0(1acce$$+%i$t 1 per,it 1 2.167.1.0 0.0.0.299ro#ter rip

ip pre =+%i$t 1 in 2 o#tacce$$+%i$t 1 per,it 1 2.167.1.0 0.0.0.299ro#ter rip

i$tri-#tion+%i$t 1 o#tacce$$+%i$t 1 per,it 1:2.16.13.0 0.0.0.3

13. Which two co,,an $ can -e #$e to eri&! that an o $et %i$tha$a%tere the path ta en -! traGc* 4Choo$e two.5 tracero#te @

te%netpin$how ip ro#te @$how ip protoco%$$how r#nnin +con


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18.

Re&er to the e=hi-it. On the -a$i$ o& the in&or,ation pre$ente which$tate,ent i$ tr#e* A e&a#%t $tatic ro#te wa$ con #re with the track e!wor . @ E/?RP wa$ con #re to trac the ho$t at /P a re$$ 1 2.167.2.1./P S A operation i$ c#rrent%! ,onitorin the networ 1 2.167.2.0(28./P S A operation ha$ %o$t connecti it! to 1:2.16.12.2.

19. When po%ic!+-a$e ro#tin 4P)R5 i$ -ein i,p%e,ente which$et

co,,an wi%% o erri e e=p%icit entrie$ in the ro#tin ta-%e* $et ip ne=t+hop$et ip prece ence$et e&a#%t inter&ace$et ip e&a#%t ne=t+hop


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16.

Re&er to the e=hi-it. Which con #ration wi%%en$#re that traGc thatori inate$ &ro, networ 1:2.16.1.0 wi%% -e &orwar e o#t Seria% 0(0(0* R14con 5< acce$$+%i$t 1 per,it 1:2.16.1.0 299.299.299.0R14con 5< ro#te+,ap /SP+1 per,it 10R14con +ro#te+,ap5< ,atch ip a re$$ 1R14con +ro#te+,ap5< $et inter&ace $eria% 0(0(0R14con 5< inter&ace &a0(0R14con +i&5< ip po%ic! ro#te+,ap /SP+1 R14con 5< acce$$+%i$t 1 per,it 1:2.16.1.0 0.0.0.299 @R14con 5< ro#te+,ap /SP+1 per,it 10R14con +ro#te+,ap5< ,atch ip a re$$ 1R14con +ro#te+,ap5< $et inter&ace $0(0(0R14con 5< inter&ace &a0(1R14con +i&5< ip po%ic! ro#te+,ap /SP+1 R14con 5< acce$$+%i$t 1 per,it 1:2.16.1.0 0.0.0.299R14con 5< ro#te+,ap /SP+1 per,it 10R14con +ro#te+,ap5< ,atch ip a re$$ 1R14con +ro#te+,ap5< $et inter&ace $0(0(0R14con 5< inter&ace $0(0(0R14con +i&5< ip po%ic! ro#te+,ap /SP+1

R14con 5< acce$$+%i$t 1 per,it 1:2.16.1.0 0.299.299.299R14con 5< ro#te+,ap /SP+1 per,it 10R14con +ro#te+,ap5< ,atch ip a re$$ 1R14con +ro#te+,ap5< $et inter&ace &a0(0


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R14con 5< inter&ace $0(0(0R14con +i&5< ip po%ic! ro#te+,ap /SP+1

R14con 5< acce$$+%i$t 1 per,it 1:2.16.1.0 0.299.299.299R14con 5< ro#te+,ap /SP+1 per,it 10

R14con +ro#te+,ap5< ,atch ip a re$$ 1R14con +ro#te+,ap5< $et inter&ace &a0(1R14con 5< inter&ace $0(0(0R14con +i&5< ip po%ic! ro#te+,ap /SP+11:.

Re&er to the e=hi-it. A$$#,in a%% Fa$tEthernet inter&ace$ ha e -een con #re withthe ip po%ic! ro#te+,ap OA'M)A ANCE co,,an an are #p how wi%% ro#ter R1 treat pac et$ that are recei e &ro, networ 10.2.0.0 an e$tine &or the /nternet* wi%% -e roppe -! R1wi%% -e &orwar e o#t inter&ace S0(0(0wi%% -e &orwar e o#t inter&ace S0(1(0wi%% -e ro#te nor,a%%! -a$e on the ro#tin ta-%e @wi%% -e %oa -a%ance thro# h each $eria% inter&ace

17. Which path contro% con$i eration create$ an e ecti e #$e o&-an wi th -! ha in traGc #$e

i erent path$ &or oppo$ite irection$* a ai%a-i%it!a apta-i%it!


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per&or,ancepre icta-i%it!a$!,,etric ro#tin @

1 . Which path contro% con$i eration he%p$ pro i e an accepta-%e

%e e%o& $er ice when a &ai%#re occ#r$* a ai%a-i%it!a apta-i%it!per&or,ancere$i%ienc! @ 20. Which /P S A $tate,ent i$ tr#e* An /P S A re$pon er co#% -e a we- $er er or an /P ho$t.

Ci$co /OS /P S A$ #$e pa$$i e traGc ,onitorin eneratin traGc ina ran o, ,anner to ,ea$#re networ per&or,ance.

/P S A operation$ are con #re on a tar et e ice.

To increa$e $ec#rit! o& /P S A$ contro% ,e$$a e$e$$a e 'i e$t 9 4 '95 a#thentication can -e #$e . @

CHAPTER 6


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Re&er to the e=hi-it. Anetwor a ,ini$trator in a#tono,o#$ $!$te, 69100 ha$ $et

#a%+ho,e )?P connection with an /SP. The a ,ini$trator wo#% %i e to en$#re t&ro, the /SP enter$ the a#tono,o#$ $!$te, thro# h ro#ter R1. Which )?P attri-#a ,ini$trator con #re on ro#ter$ R1 an R2 to acco,p%i$h thi$*

,#%tiMe=itM i$cri,inator @%oca% pre&erencea re ate

2 Re&er to the e=hi-it.Which $tate,ent i$ tr#e*

The nei h-or at 1 0.10.90.1 i$ an e=terna% peer. The nei h-or at 1:0.10.20.2 i$ an interna% peer.RTA i$ oin to a erti$e that it i$ part o& AS 300.RTA i$ oin to a erti$e networ 190.10.0.0 to it$ nei h-or$ i& 190.10.0.0 orit$ $#-net$ are in the /P @


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3

Re&er to the e=hi-it. Which two con #ration$ wi%% a%%ow ro#ter R1 to e$ta-%i$h a nei h-or re%ation$hip with ro#ter R2* 4Choo$e two.5R14con 5< ro#ter - p 100 @R14con +ro#ter5< networ 1 2.167.10.0 @

R14con +ro#ter5< nei h-or 20 .169.200.226 re,ote+a$ 200 @

R24con 5< ro#ter - p 200 @R24con +ro#ter5< networ 1 2.167.20.0 @R24con +ro#ter5< nei h-or 20 .169.200.229 re,ote+a$ 100 @ 8 How can $tatic ro#te$ -e !na,ica%%! in;ecte into )?P*

Create the $tatic ro#te$ with an a ,ini$trati e i$tance e"#a% to )?P.App%! the re i$tri-#te $tatic co,,an to the )?P con #ration. @ Create a pre = %i$t that co er$ the $cope o& the networ $ that are $peci e -! the $tatic ro#te$.U$e ro#te ,ap$ in$tea o& $tatic ro#te$ to !na,ica%%! #p ate the con er ence.


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9

Re&er to the e=hi-it. )?P $e$$ion$ are e$ta-%i$he -etween a%% ro#ter$. RTC recei e$ ro#te #p ate$ &or networ 20 .169.200.228(2: &ro, a#tono,o#$ $!$te, 300 with the wei ht attri-#te $et to 3000. RT) a%$o %earn$ a-o#t networ20 .169.200.228(2: &ro, a#tono,o#$ $!$te, 200 with a wei ht o& 2000. Which ro#ter wi%% -e #$e -! RTA a$ a ne=t hop to reach thi$ networ *

RT) -eca#$e o& the %owe$t wei htRT) -eca#$e o& the $%ow 68 -($ %inRT) -eca#$e o& the $horte$t ASMPath @ RTC -eca#$e o& the hi he$t wei htRTC -eca#$e o& the %on e$t ASMPathRTC -eca#$e o& the T1 %in


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6

Re&er to the e=hi-it. Ro#ter R2 i$ c#rrent%! #na-%e to acce$$ networ 1:2.16.

10.0(28. )a$e on the in&or,ation in the e=hi-it which con #ration wo#% = the pro-%e,*

R14con 5< ro#ter - p 69100R14con +ro#ter5< networ 10.0.0.0 ,a$ 299.0.0.0 R14con 5< ro#ter - p 69100 @R14con +ro#ter5< networ 1:2.16.0.0 ,a$ 299.299.0.0 @


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:.

Re&er to the e=hi-it. )a$e on the $how ip - p $#,,ar! an e-# ip - p o#tp#t which two $tate,ent$ ,#$t -e tr#e*4Choo$e two.5

The ro#ter at 10.299.2.2 i$ an E)?P peer. The e- p ,#%ti+hop co,,an i$ ,i$$in &ro, the )?P con #ration.

R1 ha$ e$ta-%i$he an E)?P peerin re%ation$hip. @R1 i$ irect%! connecte to an /)?P peer.R1 cannot ro#te )?P pac et$ to 10.299.2.2. @


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7Re&er to the e=hi-it. Ro#ter R1 i$ recei in the pre = 10.22.0.0(16 &ro, an /)

?P peer. The pre = appear$ in the )?P ta-%e o& R1 -#t not in the /P ro#tin ta-%e. What co#% -e pre entin R1 &ro, in$ta%%in 10.22.0.0(16 in the ro#tinta-%e*a#to,atic $#,,ari>ation i$a-%eE)?P ,#%tihop ,i$con #rationincorrect #$e o& the #p ate+$o#rce co,,anro#te a,penin$!nchroni>ation @


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Re&er to the e=hi-it. A#tono,o#$ $!$te, 69900 i$ ro#tin traGc -etween two e=terna% )?P a#tono,o#$ $!$te,$ a#tono,o#$ $!$te, 69200 an a#tono,o#$ $!$te, 69100. S!nchroni>ation i$ i$a-%e on )?P in a#tono,o#$ $!$te, 69900. Which ro#ter$ $ho#% ha e /)?P peer re%ation$hip$ &or ro#tin -etween a#tono,o#$ $!$te, 69200 an a#tono,o#$ $!$te, 69100 to wor pro

per%!*R1 an R9R1 R3 an R8R1 R3 R8 an R9 @/SP A R1 R9 an /SP )

10 Which ro#te$ are a ai%a-%e to a )?P $pea er to a erti$e to peer$ once ana ;acenc! i$ &or,e *on%! ro#te$ in the /P ro#tin ta-%e @on%! ro#te$ in the )?P &orwar in ata-a$e


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on%! ro#te$ that are %earne &ro, /)?P peer$ in the $a,e a#tono,o#$ $!$te,an! ro#te in either the /P ro#tin ta-%e or )?P &orwar in ata-a$e

11 Re& er to the e=hi-it. An or ani>ation ha$ con #re a ,#%tiho,e $o%#tion #$inE)?P -etween two e e ro#ter$ an two /SP$. The e e ro#ter$ are recei inon%! e&a#%t ro#te$ &ro, each /SP E)?P peer. Which two $tate,ent$ are tr#eo& thi$ $o%#tion* 4Choo$e two.5E/?RP wi%% choo$e the -e$t ro#te to e=it the a#tono,o#$ $!$te,. @

TraGc -etween the /SP$ wi%% -e ro#te thro# h a#tono,o#$ $!$te, 69900.A%% ro#ter$ in a#tono,o#$ $!$te, 69900 ,#$t ha e co,p%ete now%e e o& e=terna% ro#te$.A TCP $e$$ion ,#$t -e e$ta-%i$he -etween the e e ro#ter$ an the /SP ro#ter$. @

12 Which two $tate,ent$ are e! characteri$tic$ o& )?P* 4Choo$e two.5/t #$e$ co$t a$ it$ ,etric./t i$ a %in +$tate ro#tin protoco%./t i$ a po%ic!+-a$e ro#tin protoco%. @/t #$e$ -an wi th an e%a! a$ it$ ,etric./t i$ an a ance i$tance ector ro#tin protoco%./t pro i e$ inter o,ain ro#tin -etween a#tono,o#$ $!$te,$. @


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13 What i$ the ran e o& a#tono,o#$ $!$te, n#,-er$ re$er e &or pri ate #$e*1 to 32:671 to 6993932:67 to 6993968912 to 69939 @ 69912 to 69939

18 Which two option$ -e$t e$cri-e an e=terior ro#tin protoco% 4E?P5* 4Choo$e two.5an inter o,ain ro#tin protoco% @an intra o,ain ro#tin protoco%a ro#tin protoco% that i$ #$e &or intra o,ain ro#tin $#ch a$ /S+/S an OSPF

3a ro#tin protoco% that e=chan e$ ro#tin in&or,ation within an a#tono,o#$$!$te,a ro#tin protoco% that e=chan e$ ro#tin in&or,ation -etween i erent a#tono,o#$ $!$te,$@

19 An enterpri$e ,#$t interconnect ,#%tip%e $ite$. Which techno%o ! wo#% pro i e $ec#re an ,ana ea-%e connection$ o er the a!er 3 /SP networ witho#t the a itiona% e=pen$e o& %ea$e %ine$

/)?P/P S A

P S PN @

16 What i$ a i$a anta e to ,#%tiho,in an acceptin on%! a e&a#%t ro#te&ro, each /SP*)eca#$e o& %oa -a%ancin -etween /SP$ $#-opti,a% ro#tin ,a! occ#r.)eca#$e ro#ter$ wi%% $e%ect the e e ro#ter -a$e on the /?P ,etric $#-opti,a% ro#tin ,a! occ#r. @)eca#$e ro#tin %oop$ within the /?P ro#tin o,ain ,a! occ#r on%! a $in %e

/SP connection can -e #$e .)eca#$e no ,ore than one e&a#%t ro#te can -e a erti$e into the /?P ro#tin o,ain on%! a $in %e /SP connection can -e #$e .

1: An enterpri$e ha$ ro#ter$ with %i,ite re$o#rce$ -#t re"#ire$ the -e$t path to $e%ecte e=terna% networ $. Which ,#%tiho,in option wo#% pro i e the-e$t $o%#tion*


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,#%tiho,in with e&a#%t ro#te$ &ro, a%% pro i er$,#%tiho,in with %% /nternet ro#te$ &ro, a%% pro i er$,#%tiho,in with e&a#%t ro#te$ an partia% /nternet ro#te$ &ro, a%% pro i er$@,#%tiho,in with partia% /nternet ro#te$ &ro, one pro i er an e&a#%t ro#te$&ro, a%% other pro i er$

17

Re&er to the e=hi-it. )?P $e$$ion$ are e$ta-%i$he -etween a%% ro#ter$. Ro#terRTC ha$ the %oca% pre&erence &or networ 20 .169.200.228(2: $et to 200 anro#ter RT) ha$ a %oca%pre&erence $et to 190 &or the $a,e networ . Which ro#ter wi%% -e #$e -! RTAa$ a ne=t hop to reach networ 20 .169.200.228(2:*RT) -eca#$e o& the %owe$t %oca% pre&erenceRT) -eca#$e o& the $%ow 68 -($ %inRTC -eca#$e o& the hi he$t %oca% pre&erence @

1 Which )?P attri-#te i$ #$e -! )?P to en$#re a %oop+&ree topo%o ! on the/nternet*Ne=tMhop

A$Mpath @%oca% pre&erenceAto,ic a re ateOri in

20 Which )?P ro#ter$ wi%% -eco,e peer$ an $hare ro#tin in&or,ation*


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)?P ro#ter$ that are con #re with the $a,e networ co,,an)?P ro#ter$ $hare ro#tin in&or,ation with a%% ro#ter$ in the $a,e AS -! e&a#%t.)?P ro#ter$ that are con #re with the nei h-or co,,an @)?P ro#ter$ that are con #re with the $a,e peer co,,an

CHAPTER :

1.Re&er to the e=hi-it. A networ a ,ini$trator ha$ con #re a ?RE t#nne% -etween R1 an R2 a$ $hown. A&ter co,p%etin the t#nne% con #ration$ the a

,ini$trator notice$ that the t#nne% inter&ace$ on both ro#ter$ are own. A%% other inter&ace$ are #p an the pin $ thro# h the /SP to the $eria% inter&ace o&each ro#ter are $#cce$$%. What i$ the ca#$e o& the pro-%e,*

T#nne% $o#rce con #ration$ are incorrect. T#nne% e$tination con #ration$ are incorrect. @ The TU $i>e ha$ not -een increa$e to 18 2.?RE /P encap$#%ation ha$ not -een con #re .


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2. Which three protoco%$ are in o% e in the e$ta-%i$h,ent o& an /P$ec PN t#nne%* 4Choo$e three.5

T#nne% Pro %e 4TCP port 6085A#thentication Hea er 4protoco% 915 @ ?eneric Ro#tin Encap$#%ation 4protoco% 8:5Encap$#%atin Sec#rit! Protoco% 4protoco% 905 @ /nternet Sec#rit! A$$ociation an e! ana e,ent Protoco% 4TCP port 9005/nternet Sec#rit! A$$ociation an e! ana e,ent Protoco% 4U'P port 9005 @

3.Re&er to the e=hi-it. )a$e on the partia% con #ration that i$ $hown which $tatic ro#te wo#% -e the pri,ar! e&a#%t path*ip ro#te 0.0.0.0 0.0.0.0 1:2.16.20.2 80 @ip ro#te 0.0.0.0 0.0.0.0 1 2.67.6.1 90ip ro#te 0.0.0.0 0.0.0.0 202.16.20.2 60ip ro#te 0.0.0.0 0.0.0.0 212.67.6.1 :0

8. Which i$ a c%ient%e$$ PN $o%#tion &or ,o-i%e wor er$*?RE/P$ecSSHSS @ 9. Which two $tate,ent$ are correct a-o#t /P$ec cr!pto ,ap$* 4Choo$e two.5

The cr!pto ,ap e ne$ the /P$ec t#nne% en point or peer. @Pac et$ that o not ,eet the criteria a$ $peci e in the cr!pto ,apare roppe .

The cr!pto ,ap i$ app%ie to the o#t-o#n inter&ace that the ro#ter i$peerin with. @

6. What i$ a %i,itation o& /P$ec -! e$i n*/P$ec on%! &orwar $ #nica$t traGc.@


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Re,ote4con 5< acce$$+%i$t 101 per,it ip 1:2.16.16.0 0.0.:.299 an!Re,ote4con 5< acce$$+%i$t 101 en! 1:2.16.16.0 0.0.:.299 1:2.16.0.0 0.0.:.299Re,ote4con 5< acce$$+%i$t 101 en! 1:2.16.16.0 0.0.:.299 an!Re,ote4con 5< acce$$+%i$t 101 per,it ip 1:2.16.16.0 0.0.:.299 an!

Re,ote4con 5< acce$$+%i$t 101 en! 1:2.16.16.0 0.0.:.299 20 .169.202.12 0.0.0.3

Re,ote4con 5< acce$$+%i$t 101 per,it ip 1:2.16.16.0 0.0.:.299 an!Re,ote4con 5< acce$$+%i$t 101 per,it ip 1:2.16.16.0 0.0.:.299 an!Re,ote4con 5< acce$$+%i$t 101 en! 1:2.16.0.0 0.0.:.299 1:2.16.16.00.0.:.299

. How i$ NAT t#ne to han %e traGc that i$ $ent thro# h a PN t#nne%-etween a ,o-i%e wor er an interna% corporate re$o#rce$*

Tran$%ation i$ a%%owe -! a per,it acce$$ %i$t $tate,ent or ro#te ,ap. Tran$%ation i$ a%%owe -! a en! acce$$ %i$t $tate,ent or ro#te ,ap. TraGc $ho#% -!pa$$ tran$%ation with a en! acce$$ %i$t $tate,ent or ro#te+,ap. @ 10. )ranch oGce networ e$i n&ace$ $e era% cha%%en e$. Which o& the$e cha%%en e$

ha$ the oa% o& o-tainin centra%i>e contro% o& networ $ec#rit! an ,anae,ent*-an wi th an networ re"#ire,ent$con$o%i ate ata center$ @

ep%o!,ent p%an,ana e,ent co$t$,o-i%it!

11. Which three $tate,ent$ wo#% he%p an en #$er e e%op a -etter#n er$tan in o& 'S techno%o !* 4Choo$e three.5

A'S t!pica%%! ha$ a hi her own%oa -an wi th than a ai%a-%e #p%oa -anwi th. @A%% arietie$ o& 'S pro i e the $a,e -an wi th a%tho# h the! #$e i erenttechno%o ie$ to achie e #p%oa an own%oa .'S i$ a ai%a-%e in an! %ocation that ha$ a te%ephone.'S $pee $ can e=cee the $pee $ a ai%a-%e with a t!pica% T1 %ine. @

Tran$&er rate$ ar! -! the %en th o& the %oca% %oop. @


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12. What are three characteri$tic$ o& -roa -an acce$$* 4Choo$e three.5 a%wa!$ on @-#i%t+in $ec#rit!enhance oice an i eo $er ice$ @

#arantee "#a%it! o& $er ice 4LoS5hi h+$pee acce$$ @wi e area o& co era e

13. Which three ite,$ can -e $peci e -! /SA P po%ic! para,eter$* 4Choo$e three.5the ha$hin ,etho to -e #$e @the encr!ption ,etho to -e #$e @the encap$#%ation ,etho to -e #$ethe a#thentication ,etho to -e #$e @the AC that i$ #$e to i enti&! intere$tin traGc

the a,o#nt o& ti,e the cr!pto inter&ace $ho#% -e acti e -e&ore -ein rene otiate

18. Re&er to the e=hi-it. A networ a ,ini$trator i$ t#nin /P$ec to encap$#%ate the ?RE t#nne%-etween R1 an R2. A$$#,in a%% other /P$ec con #ration$ are correct which two cr!pto ,ap


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acce$$ %i$t$ wi%% co,p%ete thi$ ta$ * 4Choo$e two.5R14con +e=t+nac%5< per,it re ho$t 1:2.16.287.1 ho$t 1:2.16.287.2R14con +e=t+nac%5< per,it re ho$t 20 .169.202.12 ho$t 68.100.32.1 @R24con +e=t+nac%5< per,it re ho$t 20 .169.202.12 ho$t 68.100.32.1R24con +e=t+nac%5< per,it re ho$t 68.100.32.1 ho$t 20 .169.202.12 @ 19. Which $tate,ent i$ tr#e a-o#t the ep%o!,ent o& Conte=t+-a$e Acce$$ Contro% 4C)AC5an one+)a$e Firewa%% 4 )F5*

The! cannot -e ep%o!e on the $a,e ro#ter. The! can -e ep%o!e on the $a,e ro#ter -#t not on the $a,e inter&ace. @

16. Which two $o%#tion$ can a h!-ri -er ca-%e $er ice pro i er app%! whenthere i$ con$tant con e$tion on the %ine* 4Choo$e two.5A%%ocate %e$$ -an wi th to a ecte c#$to,er$.

A%%ocate another own$trea, channe%. @A%%ocate another #p$trea, channe%.R#n -er eeper into the nei h-orhoo . @R#n -er to each ho,e.

1:. Which i$ a Ci$co /OS rewa%% $o%#tion that re%ie$ on acce$$ contro% %i$t$*Ci$co Ea$! PN $er erCi$co Sec#rit! ana er

one+)a$e Firewa%% 4 )F5Conte=t+)a$e Acce$$ Contro% 4C)AC5 @

17. /n the ro#tin e$i n &or a -ranch oGce which area wi%% ha e an a ect oncon er ence %oa -a%ancin an $ca%a-i%it!* connecti it! techno%o ie$,o-i%it! re"#ire,ent$re$i%ienc!ro#tin protoco%$ @$er ice ,i=$ec#rit! an co,p%iance

1 . Which /P$ec $er ice eri e$ that the ata wa$ not a%tere #rin tran$,i$$ion* a#thori>ationencr!ptioninte rit!


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20. Which two U'P port$ ,#$t -e per,itte in-o#n thro# h the /nternet+&acin inter&ace ona rewa%% to e$ta-%i$h an /P$ec t#nne% an NAT+T* 4Choo$e two.52290919008900

Chapter 7

1 Re&er to thee=hi-it. An a ,ini$trator ha$ con #re ro#ter$ R1 an R2 &or E/?RPA&ter co,p%etin the con #ration$ an eri&!in that the inter&ace$ are #p the a ,that the ro#ter$ ha e not &or,e an E/?RP a ;acenc!. What nee $ to -e one

tonei h-orin ro#ter$ to e$ta-%i$h a ;acenc!*/P 6 ,#%tica$t ro#tin ,#$t -e ena-%e .

The E/?RP ro#tin proce$$ ,#$t -e $tarte . @ The ro#ter /' &or /P 6 E/?RP ,#$t -e a 127 -it n#,-er.


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2.

Re&er to the e=hi-it. What i$ in icate -! the connecte ro#te entr!*Ro#ter1 i$ con #re &or NAT+PT. @

The inter&ace i$ part o& an 6to8 t#nne%.

Ro#ter1 i$ participatin in an /SATAP t#nne%. The inter&ace i$ part o& an OSPF not+$o+$t#--! area.

3 Which o& the$e a re$$e$ i$ the $horte$t a--re iation &or the /P a re$$J3FFE J 1088 J 0000 J 0000 J 00A) J 0000 J 0000 J 009:*3FFE J 1088 JJ A) JJ 9:3FFE J 1088 JJ 00A) JJ 009:3FFE J 1088 J 0 J 0 J A) JJ 9: @3FFE J 1088 J 0 J 0 J 00A) JJ 009:


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8.

Re&er to the e=hi-it. The networ i$ #$in OSPF 3 a$ the ro#tinprotoco%. Ser er$ A ) an C o er the $a,e app%ication $er ice$. Which t!pe o& /P 6 a re$$ wo#% -e #$

e $o that the ro#ter wi%% $en the pac et to the $er er with the %owe$t co$t OSPF ro#te*an!ca$t @,#%tica$t%in %oca%#ni"#e %oca%

9 Which two $tate,ent$ are correct a-o#t $o%icite +no e ,#%tica$t$* 4Choo$etwo.5

The! are #$e &or a re$$ re$o%#tion o& an /P 8 a re$$ to an /P 6 a re$$.

The! are #$e &or a re$$ re$o%#tion o& an /P 6 a re$$ to a AC a re$$ ona AN $e ,ent. @ The! are #$e &or a re$$ re$o%#tion o& an /P 8 a re$$ to an /P 6 a re$$ ona AN $e ,ent.

The! re$o% e the pro-%e, o& two or ,ore e ice$ ha in the $a,e AC a re$$.


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The! re$o% e the pro-%e, o& two or ,ore e ice$ ha in the $a,e %in +%oca% are$$.

The! are #$e in '#p%icate A re$$ 'etection 4'A'5 to etect #p%icate /P 6a re$$e$. @

6 Re&er to the e=hi-it. Ho$t 1 $en $ a ro#ter $o%icitation /C P ,e$$a e that re"#e$t$a#to con #ration &ro, ro#ter R1. Which e$tination /P 6 a re$$ wi%% -e #$e

-! R1 to $en the /C P ro#ter a erti$e,ent ,e$$a e that contain$ the /P6 con #ration option$*

,#%tica$t a re$$ FF02JJ2 &or a%% ro#ter$ro#ter R1 %in +%oca% a re$$ FE70JJ2(10'HCP $er er$(re%a! a ent a re$$ FF02JJCho$t 1 %in +%oca% a re$$ FE70JJ1 or ,#%tica$t a re$$ FF02JJ1 &or a%% no e$ @

: State%e$$ a#tocon #ration ena-%e$ which /P 6 &eat#re*Capa-i%it! o& e ice$ to connect to the networ witho#t an! con #ration orwitho#t the #$e o& a 'HCP $er er @

7. How o /P 6 ena-%e ro#ter$ han %e pac et &ra ,entation*/P 6 ro#ter$ o not per&or, pac et &ra ,entation. OSPF 3 ha$ a ,echani$,&or eter,inin the opti,a% pac et $i>e an !na,ica%%! a ;#$tin the pac et$i>e.

/P 6 ro#ter$ o not per&or, pac et &ra ,entation. C'P i$ #$e to i$co er thecorrect pac et $i>e &or an! i en traGc Dow. The correct pac et $i>e i$ #ni"#e&oreach traGc Dow.

/P 6 ro#ter$ per&or, pac et &ra ,entation. C'P i$ #$e to eter,ine whichpac et$ nee to -e &ra ,ente &or an! i en traGc Dow.


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10.Re&er to the e=hi-it. An a ,ini$trator con #re ro#ter R1 with two in$tance$o& R/Pn .)a$e on the in&or,ation in the e=hi-it what ,#$t the a ,ini$trator o ne=tin or er to e=chan e ro#te$ -etween -oth R/Pn in$tance$*

The re i$tri-#te rip R1R2 co,,an ,#$t -e i$$#e #n er the R1R3 R/Pn in$tance an there i$tri-#te rip R1R3 co,,an ,#$t -e i$$#e #n er the R1R2 R/Pn in$tance. @

11 Which two /P 6+$peci c e=ten$ion$ are incorporate into )?P* 4Choo$e two.5an i enti er &or the /P 6 a re$$ &a,i%! @a%% ro#ter$ /P 6 ,#%tica$t a re$$a %o-a% /P 6 a re$$ with the NEKTMHOP attri-#te @

a 127+-it ro#ter /'P S a$ a pa$$en er protoco%

12 Which two /P 8 to /P 6 tran$ition techni"#e$ ,ana e the interconnectiono& /P 6 o,ain$* 4Choo$e two.5tr#n in

#a% $tac @encap$#%ationt#nne%in @tran$%ation

13 What i$ an a anta e o& the NAT+PT techni"#e &or tran$itionin -etween /P 8 an /P 6*A%% ,appin $ are $tatic.?%o-a%%! ro#ta-%e /P 8 a re$$in i$ not re"#ire .'NS i$ not re"#ire .No con #ration i$ re"#ire on en no e$ @


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18.Re&er to the e=hi-it. What i$ the p#rpo$e o& thi$ con #ration*to protect the /P 6 traGc &ro, -ein corr#pte -! the /P 8 traGcto tran$port /P 6 traGc thro# h an /P 8 networ @to a%%ow the /P 6 traGc to #$e /P 8 a re$$e$

19 Re&er to the e=hi-it. A networ a ,ini$trator wi$he$ to app%! a ro#tin po%ic! on ro#ter

We$tR1 that wi%% &orwar we- traGc to the /SP whi%e pre$er in the nor,a% ro#tin to the i$trict oGce. Howe er when the con #ration i$p%a!e in thee=hi-it i$ app%ie the we- traGc i$ $ti%% Dowin to the i$trict oGce. Whatcon #ration chan e $ho#% -e ,a e to the We$tR1 ro#ter*

The acce$$ %i$t ,#$t -e rewritten to proper%! ,atch we- traGc. The ro#te ,ap $ho#% -e app%ie to ?i 0(0 inter&ace. @ The acce$$ ro#p $ho#% -e app%ie to S0(0(0 o#t-o#n . The ro#te ,ap na,e $ho#% ,atch the acce$$ %i$t na,e.


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16 What i$ the /P 6 pre = #$e &or 6to8 a#to,atic t#nne%$*2002 @

1: Which ,etho can -e #$e to ro#te traGc thro# h a 6to8 a#to,atic t#nne%*/P 6 $tatic ro#te @/P 8 $tatic ro#teOSPF 2OSPF 3R/P 2

17.Re&er to the e=hi-it. Which $tate,ent i$ tr#e a-o#t the co,,an ip 6 o$p& co$t 20*

The irt#a% Ro#ter Re #n anc! Protoco% 4 RRP5 wi%% not #$e thi$ inter&ace #n%e$$ a%% other inter&ace$ o own.

The co$t n#,-er i$ #$e in the e$i nate ro#ter e%ection.

OSPF 3 wi%% pre&er thi$ %in o er %in $ with a %ower co$t. The /P 6 priorit! ,#$t -e con #re -e&ore thi$ co,,an i$ entere . The co$t o& $en in a pac et on thi$ inter&ace e=pre$$e in the %in $tate ,etric i$ 20. @

1 A&ter the acti ation o& /P 6 ro#tin on a Ci$co ro#ter an thecon #ration o& /P 6 a re$$e$ on ,#%tip%e inter&ace$ what i$ the re,ainin $tep to acti ate R/Pn *

Enter the ip 6 rip na,e ena-%e co,,an on each /P 6 R/Pn inter&ace. @

20.Re&er to the e=hi-it. Which t!pe o& /P 6 $tatic ro#te i$ con #re in the e=hi-it*


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irect%! attache $tatic ro#terec#r$i e $tatic ro#te @%%! $peci e $tatic ro#teDoatin $tatic ro#te

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