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CCNP
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Subjects
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cisco
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it-skills
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ccnp
Instructions:
Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can
study here
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Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.
This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.
1. Explain the multicast routing table distribution tree notations.
2. Explain the path selection process for BGP? What is the order and what preference does it take?
Most applications rely on UDP<br />Security issues<br />Out of order delivery & duplicate packets are a possibility during topology changes.<br />Lack of windowing/congestion control.<br /> Multicast
Idle - Router looking in routing table to see if route exists to neighbor. <br /><br />[Active - When no response to Open message] <br /><br />Connect - Router found route to neighbor and has performed the TCP three-way handshake<br /><br />Open Sent
BGP specifies that it can advertise to its peers in neighboring AS's only routes that it uses.<br />BGP cannot influence how a neighboring AS will route your traffic BUT it can influence how your traffic gets to the neighboring AS. <br /> BGP
1. Weight - Administrative preference (Highest)<br /><br />2. Local Preference - Communicated between peers within AS (Highest)<br /><br />3. Self-originated - Prefer path originated locally (True)<br /><br />4. AS Path - Minimize AS hops (Shortest)<
3. Name what an update message may include.
Cluster - combination of RR and its clients. Can have multiple clusters in an AS. <br />Originator ID - carries router ID of the route's originator<br />Cluster ID - configured when multiple RR in a cluster.<br />Cluster list - sequence of cluster ID
BGP Table - BGP topology database - information <br />BGP Neighbor Table - list of connected neighbors<br />IP Routing Table - Duh.<br /> BGP
SPT (S -G) consume more memory because there is an entry for each source BUT traffic is sent over optimal path to receiver.<br />Shared distribution tree state entries (* -G) consume less CPU but may take suboptimal path to receiver.<br /> Multicast
Contains information on ONE path only<br /><br />Withdrawn routes - List of IP prefixes for routes being withdrawn.<br />Path attributes - AS-Path - etc.<br />Network layer reachability information - List of IP prefixes reachable by this path. BGP
4. What are two methods of establishing a gateway of last resort?
Most applications rely on UDP<br />Security issues<br />Out of order delivery & duplicate packets are a possibility during topology changes.<br />Lack of windowing/congestion control.<br /> Multicast
Default-Network<br />Static route<br /> BGP
WM<br />Next hop address is entry point into the next AS along the path to that destination network. It does a recursive lookup to the routing table which should have learned the route from its IGP.<br />in IBGP the next hop advertised by EBGP should
One-to-many: video distribution<br />Many-to-many: Collaboration<br />Many-to-one: auction - polling or data collection<br />Few-to-many: auction - polling or data collection<br /> Multicast
5. Name the Well-known discretionary attributes.
WM<br />One of three values: <br />IGP - Route is interior to the originating AS. (BGP table shows 'i')<br />EGP - Route learned via EGP. (BGP table shows 'e')<br />Incomplete - Routes origin is unknown - usually when redistributed. (BGP table shows
RFC - 3376<br />Ability to filter multicast source (can be picky)<br />IGMPv3 membership report goes to 224.0.0.22 and may include the multicast hosts it will accept or deny.<br /> Multicast
Local preference<br />Atomic Aggregate BGP
Router#(config) ip pim spt-threshold {rate | infinity} [group-list access-list] Multicast
6. What is the command to enable BPG authentication?
Loopback more resilient than physical interfaces. BGP
Places it in the routing table. BGP
WM<br />One of three values: <br />IGP - Route is interior to the originating AS. (BGP table shows 'i')<br />EGP - Route learned via EGP. (BGP table shows 'e')<br />Incomplete - Routes origin is unknown - usually when redistributed. (BGP table shows
R1(config-router)#neighbor 192.168.1.1 password MyPassword<br /><br />OR<br /><br />R1(config-router)#neighbor MyPeerGroup password MyPassword<br /> BGP
7. What advantage does multicast offer?
The Source and Share Tree models are the working model of how the tree is built; all multicast routing protocols fit into one or both. This is the 'theory' or model.<br />PIM-DM's operational falls in the source tree model and PIM-SM is classified an
WM<br /><br />List of AS numbers pre-pended with a list of AS numbers that the route has traversed and the originating AS at the end. 'Path to 192.168.1.0 is (65500 - 65420 - 65874)'<br /><br />This insures a loop-free environment. If BGP receives a
Efficiency<br />Performance<br />Scalability with applications<br /> Multicast
O<br />Cisco only.<br />Routes with higher weight are preferred (0 - 65535) . Paths that the router originates have 32768; other paths have default of 0.<br /> BGP
8. What does the 'maximum-paths router' command facilitate?
Local preference<br />Atomic Aggregate BGP
Show ip bgp - Shows entire BGP topology database (BGP table)<br /><br />show ip bgp rib-failure - Displays BGP routes not installd into the routing information base (RIB) and reason they were not installed.<br /><br />show ip bgp neighbors - Displays
ON<br />Displayed as metric in Cisco IOS; lower is preferred. Default is 0. Indicated to external AS the preferred path into the AS.<br />'Influence inbound traffic to an AS'<br />By default ONLY compares if neighbors AS is same for all routes being
Works if router has multiple parallel paths to a destination.<br />ONLY affect number of routes in IP routing table not the route selected at best in the BGP table.<br />Will load balance across equal cost paths in EGP session.<br /> BGP
9. What are the 3 BGP tables and What is in them?
BGP Table - BGP topology database - information <br />BGP Neighbor Table - list of connected neighbors<br />IP Routing Table - Duh.<br /> BGP
WM<br /><br />List of AS numbers pre-pended with a list of AS numbers that the route has traversed and the originating AS at the end. 'Path to 192.168.1.0 is (65500 - 65420 - 65874)'<br /><br />This insures a loop-free environment. If BGP receives a
Works if router has multiple parallel paths to a destination.<br />ONLY affect number of routes in IP routing table not the route selected at best in the BGP table.<br />Will load balance across equal cost paths in EGP session.<br /> BGP
Source Tree - Source-based tree's are rooted at the source. Source tree created for each new group. Also called shortest path tree (SPT's). <br />Shared Tree - Single tree that is shared between all sources; single common root called the rendezvous p
10. Explain the concept of RPF.
R1# clear ip bgp <br />R1# clear ip bgp soft in<br />R1# clear ip bgp * soft out<br />R1# clear ip bgp 10.1.1.1 soft in<br /><br /> BGP
Reverse Path Forwarding is the forwarding logic multicast of multicast. <br />It is the opposite of unicast in that is forwards AWAY from source as opposed to towards the receiver.<br /> Multicast
Allow router to operate in sparse mode and dense mode at the same time.<br />Supports multiple RP's and automatic RP selection for each multicast source.<br />Support auto-RP - bootstrap router (BSR) or statically defined RP's with minimal configurat
The neighbor expects to see the updates from the source address configured in the neighbor statement. BGP
11. What is the IBGP Split Horizon rule? What does this accomplish?
Language between local router interface and hosts.<br />IGMP - ICMP - similarities <br />TTL is usually 1; RFC states it should never leave local subnet.<br />Creates and maintains group membership for hosts wishing to participate in a multicast grou
IGMP is a layer 3 protocol<br />Switches treat multicast just like broadcast (forward out all ports except the one one which is was received)<br />By definition a pure layer 2 devices do not have a mechanism to see IGMP packets or facilitate the rela
Routes learned through IBPG are never propogated to other IBGP speakers.<br /><br />This is a loop prevention mechanism. BGP
BPG will find an exact match. BGP
12. What are some of the obstacles with IGMP and multicast in general as it relates to layer 2/switches?
This router originated the route. BGP
Member of a group:<br />Router#(config) ip igmp join-group group-address<br />Statically connected:<br />Router#(config) ip igmp join-group group-address<br />In this mode router forwards (fast switches) group packets but itself does not accept group
Router#(config) router bgp 1<br />Router#(config-router) neighbor 192.168.1.1 remote-as 1<br />Router#(config-router) network 192.168.0. mask 255.255.255.0<br /> BGP
IGMP is a layer 3 protocol<br />Switches treat multicast just like broadcast (forward out all ports except the one one which is was received)<br />By definition a pure layer 2 devices do not have a mechanism to see IGMP packets or facilitate the rela
13. What is a BGP route reflector - What is it purpose?
Class D address space<br />First bits are ALWAYS 1110<br />224.0.0.0 - 239.255.255.255<br /> Multicast
Default-Network<br />Static route<br /> BGP
Router#show ip igmp interface fa0/0<br /> Multicast
Since IBGP learned routes are never propagate to other IBGP peer - full mesh of IBPG peers is required within an AS. THIS IS NOT SCALABLE. <br />RR allow the propagation of routes learned by IBGP to other IBGP peers without having a full mesh of IBGP
14. Name several common local scoped multicast addresses and their purpose.
BGP not designed for load balancing (by default). <br />BGP selected the SINGLE best path to a destination and places it in the routing table; the rest are kept in the BGP Table.<br />Paths are chosen based on policy. BGP eliminates paths until one p
When not all routers within a transit AS have consistent routing information - due to not running BGP or misconfiguration or BPG speakers. Routing information is advertised but since not all routers within AS can reach the destination traffic is halt
Local scoped: 224.0.0.0 - 224.0.0.255<br />TTL of 1; Never to leave local network - for routing protocols and other network maintenance.<br />Global scoped: 224.0.1.0 - 238.255.255.255<br />MBone dynamically allocate throughout Internet<br />Limited/
224.0.0.1 - All systems<br />224.0.0.2 - All routers<br />224.0.0.4 - DVMRP routers<br />224.0.0.5 - All OSPF<br />224.0.0.6 - All OSPF DR<br />224.0.0.9 - RIP v2 routers<br />224.0.0.10 - EIGRP routers<br />224.0.0.13 - PIM routers<br />224.0.0.15 -
15. Explain the contents of the BGP update message.
Local scoped: 224.0.0.0 - 224.0.0.255<br />TTL of 1; Never to leave local network - for routing protocols and other network maintenance.<br />Global scoped: 224.0.1.0 - 238.255.255.255<br />MBone dynamically allocate throughout Internet<br />Limited/
Determines upstream and downstream interfaces.<br />Uses the unicast routing table to insure that only one interface is considered to be and incoming interface for the source.<br />RPF makes sure that if data is looped around is not forwarded. <br />
R1(config-router)# neighbor 192.168.1.1 next-hop-self<br /><br />Cause each routers outgoing interface that the route traverse wihtin the AS (iBPG peers) to annouce itself as the 'next hop' instead of the next hop into the neighboring AS.<br /><br />
Variable length sequence of path attributes<br />Attribute Type -1 byte flag field - 1 byte type code<br />Attribute Length <br />Attribute Value<br />Attribute flag field = 0000 0000<br />W | O - T | N - P | C<br /> BGP
16. What effect does (S -G) and (* -G) entries have on router CPU?
Determines upstream and downstream interfaces.<br />Uses the unicast routing table to insure that only one interface is considered to be and incoming interface for the source.<br />RPF makes sure that if data is looped around is not forwarded. <br />
SPT (S -G) consume more memory because there is an entry for each source BUT traffic is sent over optimal path to receiver.<br />Shared distribution tree state entries (* -G) consume less CPU but may take suboptimal path to receiver.<br /> Multicast
Variable length sequence of path attributes<br />Attribute Type -1 byte flag field - 1 byte type code<br />Attribute Length <br />Attribute Value<br />Attribute flag field = 0000 0000<br />W | O - T | N - P | C<br /> BGP
R2(config)# access-list 1 permit 192.168.0.0 0.0.0.255<br />R1(config-router)# neighbor 10.1.1.1 distribute-list 1 out<br />R1(config-router)# neighbor 10.1.1.2 distribute-list 1 out<br /> BGP
17. What is the formula to determine number of links in a full mesh topology?
Cisco Proprietary - between router and switch<br />'Client/Server': Router = CGMP Server - Switch = CGMP Client<br />When router sees IGMP control message it creates a CGMP packet with the mutlicast MAC + client MAC; sends this to 'All CGMP Devices M
Links = n(n-1)/2 BGP
WM<br />One of three values: <br />IGP - Route is interior to the originating AS. (BGP table shows 'i')<br />EGP - Route learned via EGP. (BGP table shows 'e')<br />Incomplete - Routes origin is unknown - usually when redistributed. (BGP table shows
Unicast uses a routing table looking and forwards towards the destination address.<br />Multicast forwards out multiple interfaces and away from the source and towards multiple destinations using a distribution tree.<br /> Multicast
18. What are the basic commands to enable BGP - define a BGP peer relationship and advertise a network?
Cluster - combination of RR and its clients. Can have multiple clusters in an AS. <br />Originator ID - carries router ID of the route's originator<br />Cluster ID - configured when multiple RR in a cluster.<br />Cluster list - sequence of cluster ID
Router#(config) router bgp 1<br />Router#(config-router) neighbor 192.168.1.1 remote-as 1<br />Router#(config-router) network 192.168.0. mask 255.255.255.0<br /> BGP
Path Vector - policy based routing protocol.<br />Uses BGP attributes are the 'metric'. <br />Path it decides it based on 'hops' where hop is Autonomous Systems.<br /> BGP
MOSPF<br />DVMRP<br />CBT<br />PIM Dense Mode<br />PIM Sparse Mode<br />PIM Sparse-Dense Mode<br /> Multicast
19. How is the BGP network command differ from IGP's?
R2(config)# access-list 1 permit 192.168.0.0 0.0.0.255<br />R1(config-router)# neighbor 10.1.1.1 distribute-list 1 out<br />R1(config-router)# neighbor 10.1.1.2 distribute-list 1 out<br /> BGP
BPG will find an exact match. BGP
When using the <span style='font-style:italic;'>classful</span> method - at least one subnet of the classful range must reside in the IP routing table.<br /><br />When using the <span style='font-style:italic;'>classless</span> method the exact subne
It actually determines which networks are advertised. BGP
20. What are the administrative distances of eBGP and iBGP?
Determines upstream and downstream interfaces.<br />Uses the unicast routing table to insure that only one interface is considered to be and incoming interface for the source.<br />RPF makes sure that if data is looped around is not forwarded. <br />
AS-Path<br />Next Hop<br />Origin BGP
EBGP = 20<br />iBGP = 200<br /> BGP
EBGP will only peer to direclty connected neighbors and a loopback is considered one hop away.<br /><br />With eBGP peering to a loopback you must enable eBGP Multihop.<br /><br />R1(config-router)# neighbor 192.168.1.1 ebgp-multihop 2 BGP
21. Name to enhancements to PIM.
ISP passes only default route to AS.<br />ISP passes default route and provider owned select routes to AS.<br />ISP passes all routes to AS.<br /> BGP
The is the multicast bit. Multicast
Bidirection PIM mode - designed for many to many applications.<br />Source Specific Multicast (SSM) ; builds only source specific shortest path trees.<br /> Multicast
R2(config)# access-list 1 permit 192.168.0.0 0.0.0.255<br />R1(config-router)# neighbor 10.1.1.1 distribute-list 1 out<br />R1(config-router)# neighbor 10.1.1.2 distribute-list 1 out<br /> BGP
22. Explain the Origin attribute.
23. When creating a BGP neighbor relationship to a loopback interface what must be remember in the context of routing?
Router#(config) ip pim send-rp-announce interface_type scope ttl group-list access-list Multicast
Must insure loopback is reachable in the routing table. BGP
0100.5e00.0000 - 0100.5e7f.ffff - IANA reserved. Multicast
Path Vector - policy based routing protocol.<br />Uses BGP attributes are the 'metric'. <br />Path it decides it based on 'hops' where hop is Autonomous Systems.<br /> BGP
24. Name 6 multicast routing protocols.
MOSPF<br />DVMRP<br />CBT<br />PIM Dense Mode<br />PIM Sparse Mode<br />PIM Sparse-Dense Mode<br /> Multicast
Globally:<br />Router(config)# ip multicast-routing<br />Per Interface:<br />Router(config-if)# ip pim dense-mode<br />Enabling PIM on an interface also enables IGMP operation on that interface.<br /> Multicast
Group of BGP routers being configured that have the same update policy.<br />Similar to a 'template'; members then assigned to the peer group.<br /> BGP
RFC 1112<br />Sends membership query every 60 - 120 seconds to 224.0.0.1<br />Hosts send membership report in response to the query<br /> Multicast
25. What command will produce the following output and What is it displaying?<br /><br /><img src='5d3c9233dd205ee4319ef0ac2fc07460.jpg' />
Bidirection PIM mode - designed for many to many applications.<br />Source Specific Multicast (SSM) ; builds only source specific shortest path trees.<br /> Multicast
The BGP Table<br /><br />Command = show ip bgp BGP
BGP peer BGP
AS-Path<br />Next Hop<br />Origin BGP
26. What is the solution to establishing neighbor relationships when multiple paths exist? What are the command to establish this? What command to tell R1 to use its loopback0 interface as the update source neighbor 192.168.1.1.
MOSPF<br />DVMRP<br />CBT<br />PIM Dense Mode<br />PIM Sparse Mode<br />PIM Sparse-Dense Mode<br /> Multicast
Use loopback interface to establish the neighbor. (i.e. peer to a loopback interface)<br />Tell BGP to use the lookback interface as teh source of updates<br /><br />R1(config-router)# neighbor 192.168.1.1 update-source loopback0<br /> BGP
The Source and Share Tree models are the working model of how the tree is built; all multicast routing protocols fit into one or both. This is the 'theory' or model.<br />PIM-DM's operational falls in the source tree model and PIM-SM is classified an
<img src='9618cf01b9422f541fc213b74a3bd9de.png' /> Multicast
27. What config would be used to configured an outbound BGP distribute list to block all routes from being advertised except ones from 192.168.0.0 /24 network to neighbors 10.1.1.1 and 10.1.1.2?
The BGP Table<br /><br />Command = show ip bgp BGP
Since IBGP learned routes are never propagate to other IBGP peer - full mesh of IBPG peers is required within an AS. THIS IS NOT SCALABLE. <br />RR allow the propagation of routes learned by IBGP to other IBGP peers without having a full mesh of IBGP
16 bit number 1 to 65535<br />1-64511: Public AS<br />64512-6535: Reserved for private AS<br /> BGP
R2(config)# access-list 1 permit 192.168.0.0 0.0.0.255<br />R1(config-router)# neighbor 10.1.1.1 distribute-list 1 out<br />R1(config-router)# neighbor 10.1.1.2 distribute-list 1 out<br /> BGP
28. What is the signifigance of the neighbor address when establishing BGP neighbor in the context of network that has multiple paths to the neighbor?
16 bit number 1 to 65535<br />1-64511: Public AS<br />64512-6535: Reserved for private AS<br /> BGP
1. Weight - Administrative preference (Highest)<br /><br />2. Local Preference - Communicated between peers within AS (Highest)<br /><br />3. Self-originated - Prefer path originated locally (True)<br /><br />4. AS Path - Minimize AS hops (Shortest)<
The neighbor expects to see the updates from the source address configured in the neighbor statement. BGP
Unicast uses a routing table looking and forwards towards the destination address.<br />Multicast forwards out multiple interfaces and away from the source and towards multiple destinations using a distribution tree.<br /> Multicast
29. Which IOS command shows what version of IGMP is running?
Router#show ip igmp interface fa0/0<br /> Multicast
EBGP = 20<br />iBGP = 200<br /> BGP
IANA delegates to Regional Internet Registries (RIRs):<br />ARIN - AfriNIC - APNIC - LACNIC and RIPE NCC<br /> BGP
BGP specifies that it can advertise to its peers in neighboring AS's only routes that it uses.<br />BGP cannot influence how a neighboring AS will route your traffic BUT it can influence how your traffic gets to the neighboring AS. <br /> BGP
30. What type of protocol is BGP classified as? What is its decision engine?
31. What is the hop-by-hop routing paradigm of BGP?
32. What is the significance of the 8th bit in the MAC address?
Partial mesh iBPG is where not all BGP speaks within and AS have an established neighbor relationship. <br />Full mesh is every BGP speaker has a neighbor (peer) with each other. <br />Routing updates are not replcated in iBPG the peers do not pass i
WM<br />Next hop address is entry point into the next AS along the path to that destination network. It does a recursive lookup to the routing table which should have learned the route from its IGP.<br />in IBGP the next hop advertised by EBGP should
The is the multicast bit. Multicast
EBGP will only peer to direclty connected neighbors and a loopback is considered one hop away.<br /><br />With eBGP peering to a loopback you must enable eBGP Multihop.<br /><br />R1(config-router)# neighbor 192.168.1.1 ebgp-multihop 2 BGP
33. What does a '*' and '>' mean in the BGP table?
Routes learned through IBPG are never propogated to other IBGP speakers.<br /><br />This is a loop prevention mechanism. BGP
When using the <span style='font-style:italic;'>classful</span> method - at least one subnet of the classful range must reside in the IP routing table.<br /><br />When using the <span style='font-style:italic;'>classless</span> method the exact subne
* = Best route<br />> = Route has been inserted into the routing table<br /> BGP
Sends a leave message to 224.0.0.2<br />Router then sends a group specific query<br />Remaining member(s) send a report so group remains active.<br /> Multicast
34. Name 4 verification commands for BGP and what they display?
Show ip bgp - Shows entire BGP topology database (BGP table)<br /><br />show ip bgp rib-failure - Displays BGP routes not installd into the routing information base (RIB) and reason they were not installed.<br /><br />show ip bgp neighbors - Displays
Partial mesh iBPG is where not all BGP speaks within and AS have an established neighbor relationship. <br />Full mesh is every BGP speaker has a neighbor (peer) with each other. <br />Routing updates are not replcated in iBPG the peers do not pass i
The router will not accept a routing update that includes its AS number in the path. BGP
Router#(config) router bgp 1<br />Router#(config-router) neighbor 192.168.1.1 remote-as 1<br />Router#(config-router) network 192.168.0. mask 255.255.255.0<br /> BGP
35. Describe how PIM-DM operates.
36. How does a host learn about available multicast streams?
Dense mode interfaces are always added to the table. <br /><br />Sparse mode interfaces are added to the table only when periodic join messages are received from downstream routers - or when a directly connected member is on the interface<br /> Multi
Router#(config) ip pim spt-threshold {rate | infinity} [group-list access-list] Multicast
Class D address space<br />First bits are ALWAYS 1110<br />224.0.0.0 - 239.255.255.255<br /> Multicast
Well know predefined group<br />Directory - sd / SDP<br />Webpage/URL<br />Email link<br /> Multicast
37. Explain the Next-Hop attribute. How does this differ from IGP's? In what environment might this be problematic?
WM<br />Next hop address is entry point into the next AS along the path to that destination network. It does a recursive lookup to the routing table which should have learned the route from its IGP.<br />in IBGP the next hop advertised by EBGP should
Contains information on ONE path only<br /><br />Withdrawn routes - List of IP prefixes for routes being withdrawn.<br />Path attributes - AS-Path - etc.<br />Network layer reachability information - List of IP prefixes reachable by this path. BGP
Session description & announcement.<br />Transport session announcement via 224.2.127.254.<br />Creation of new sessions.<br /> Multicast
0100.5e00.0000 - 0100.5e7f.ffff - IANA reserved. Multicast
38. Within the layer 3 multicast address space - name 3 reserved scopes and their purpose.
EBGP will only peer to direclty connected neighbors and a loopback is considered one hop away.<br /><br />With eBGP peering to a loopback you must enable eBGP Multihop.<br /><br />R1(config-router)# neighbor 192.168.1.1 ebgp-multihop 2 BGP
OT<br />Allows the router to 'tag' and thus implement policy based on this tag.<br /> BGP
Local scoped: 224.0.0.0 - 224.0.0.255<br />TTL of 1; Never to leave local network - for routing protocols and other network maintenance.<br />Global scoped: 224.0.1.0 - 238.255.255.255<br />MBone dynamically allocate throughout Internet<br />Limited/
Idle - Router looking in routing table to see if route exists to neighbor. <br /><br />[Active - When no response to Open message] <br /><br />Connect - Router found route to neighbor and has performed the TCP three-way handshake<br /><br />Open Sent
39. How does RPF avoid routing loops?
EBGP will only peer to direclty connected neighbors and a loopback is considered one hop away.<br /><br />With eBGP peering to a loopback you must enable eBGP Multihop.<br /><br />R1(config-router)# neighbor 192.168.1.1 ebgp-multihop 2 BGP
Determines upstream and downstream interfaces.<br />Uses the unicast routing table to insure that only one interface is considered to be and incoming interface for the source.<br />RPF makes sure that if data is looped around is not forwarded. <br />
Default-Network<br />Static route<br /> BGP
Partial mesh iBPG is where not all BGP speaks within and AS have an established neighbor relationship. <br />Full mesh is every BGP speaker has a neighbor (peer) with each other. <br />Routing updates are not replcated in iBPG the peers do not pass i
40. State 3 functions SDR performs?
Class D address space<br />First bits are ALWAYS 1110<br />224.0.0.0 - 239.255.255.255<br /> Multicast
Session description & announcement.<br />Transport session announcement via 224.2.127.254.<br />Creation of new sessions.<br /> Multicast
WM<br /><br />List of AS numbers pre-pended with a list of AS numbers that the route has traversed and the originating AS at the end. 'Path to 192.168.1.0 is (65500 - 65420 - 65874)'<br /><br />This insures a loop-free environment. If BGP receives a
R1(config-router)# neighbor 192.168.1.1 next-hop-self<br /><br />Cause each routers outgoing interface that the route traverse wihtin the AS (iBPG peers) to annouce itself as the 'next hop' instead of the next hop into the neighboring AS.<br /><br />
41. What does PIM use for its multicast routing calculations?
R1(config-router)#neighbor MyPeers peer-group<br />R1(config-router)#neighbor 10.1.1.1 remote-as 64513<br />R1(config-router)#neighbor 10.1.1.1 peer-group MyPeers<br /> BGP
The unicast routing table.<br />No routing updates are sent between PIM routers.<br /> Multicast
'Periodic Flood and Prune.'<br />Initially floods multicast traffic (received on its RPF) to all its PIM neighbors. Traffic that arrives back at the router via a non-RPF is discarded.<br />Prune messages are sent on all non-RPF interfaces and RPF int
ISP passes only default route to AS.<br />ISP passes default route and provider owned select routes to AS.<br />ISP passes all routes to AS.<br /> BGP
42. What advantage is there it establishing a neighbor relationship using a loopback interface?
Cisco Proprietary - between router and switch<br />'Client/Server': Router = CGMP Server - Switch = CGMP Client<br />When router sees IGMP control message it creates a CGMP packet with the mutlicast MAC + client MAC; sends this to 'All CGMP Devices M
WM<br />One of three values: <br />IGP - Route is interior to the originating AS. (BGP table shows 'i')<br />EGP - Route learned via EGP. (BGP table shows 'e')<br />Incomplete - Routes origin is unknown - usually when redistributed. (BGP table shows
Member of a group:<br />Router#(config) ip igmp join-group group-address<br />Statically connected:<br />Router#(config) ip igmp join-group group-address<br />In this mode router forwards (fast switches) group packets but itself does not accept group
Loopback more resilient than physical interfaces. BGP
43. What is the terminology for BGP route reflector?
44. What are the 4 BGP packet types? What do they contain?
TCP port 179<br />Reliability; uses sliding window<br />Triggered - incremental updates made very efficient<br /> BGP
BGP specifies that it can advertise to its peers in neighboring AS's only routes that it uses.<br />BGP cannot influence how a neighboring AS will route your traffic BUT it can influence how your traffic gets to the neighboring AS. <br /> BGP
EBGP will only peer to direclty connected neighbors and a loopback is considered one hop away.<br /><br />With eBGP peering to a loopback you must enable eBGP Multihop.<br /><br />R1(config-router)# neighbor 192.168.1.1 ebgp-multihop 2 BGP
Open - Version - AS - Hold Time - BGP Router ID - Optional Parameters<br />Keepalive - Sent every 60 seconds by default; hold time 180 Seconds.<br />Update - Information on only ONE path; <br />Notification - When error condition detected<br /> BGP
45. What is the command to configure a BGP RR?
0100.5e00.0000 - 0100.5e7f.ffff - IANA reserved. Multicast
Router(config-router)# neighbor 192.168.1.1 remote-as 65000<br />Router(config-router)# neighbor 192.168.1.1 route-reflector-client<br /> BGP
Group of BGP routers being configured that have the same update policy.<br />Similar to a 'template'; members then assigned to the peer group.<br /> BGP
Bidirection PIM mode - designed for many to many applications.<br />Source Specific Multicast (SSM) ; builds only source specific shortest path trees.<br /> Multicast
46. IOS command to dictate when a leaf router (in PIM-SM) will switch from shared to source tree.
SPT (S -G) consume more memory because there is an entry for each source BUT traffic is sent over optimal path to receiver.<br />Shared distribution tree state entries (* -G) consume less CPU but may take suboptimal path to receiver.<br /> Multicast
224.0.0.1 - All systems<br />224.0.0.2 - All routers<br />224.0.0.4 - DVMRP routers<br />224.0.0.5 - All OSPF<br />224.0.0.6 - All OSPF DR<br />224.0.0.9 - RIP v2 routers<br />224.0.0.10 - EIGRP routers<br />224.0.0.13 - PIM routers<br />224.0.0.15 -
Router#(config) ip pim spt-threshold {rate | infinity} [group-list access-list] Multicast
Concatenation of the first (high order) 25 bits of the reserved MAC address range with the last (low order)23 bits of the multicast group IP address. 5 bits of overlap allowing for 32 address (2^5) for each multicast MAC address. 25 bits + 23 bits<br
47. Describe how PIM-SM operates.
Concatenation of the first (high order) 25 bits of the reserved MAC address range with the last (low order)23 bits of the multicast group IP address. 5 bits of overlap allowing for 32 address (2^5) for each multicast MAC address. 25 bits + 23 bits<br
* = Best route<br />> = Route has been inserted into the routing table<br /> BGP
RFC 2362<br />Pull model - traffic only forwarded to the parts of the network that need it. Sender registers with the RP which is a proxy to group members.<br />Last hop routers to receiver knows the group RP IP address and sends a (* -G) join toward
R1(config-router)# neighbor 192.168.1.1 next-hop-self<br /><br />Cause each routers outgoing interface that the route traverse wihtin the AS (iBPG peers) to annouce itself as the 'next hop' instead of the next hop into the neighboring AS.<br /><br />
48. IOS command to configure a rendezvous point .
224.0.0.1 - All systems<br />224.0.0.2 - All routers<br />224.0.0.4 - DVMRP routers<br />224.0.0.5 - All OSPF<br />224.0.0.6 - All OSPF DR<br />224.0.0.9 - RIP v2 routers<br />224.0.0.10 - EIGRP routers<br />224.0.0.13 - PIM routers<br />224.0.0.15 -
Router#(config) ip pim send-rp-announce interface_type scope ttl group-list access-list Multicast
Source Tree - Source-based tree's are rooted at the source. Source tree created for each new group. Also called shortest path tree (SPT's). <br />Shared Tree - Single tree that is shared between all sources; single common root called the rendezvous p
ISP passes only default route to AS.<br />ISP passes default route and provider owned select routes to AS.<br />ISP passes all routes to AS.<br /> BGP
49. State how IGMPv1 operates.
RFC 1112<br />Sends membership query every 60 - 120 seconds to 224.0.0.1<br />Hosts send membership report in response to the query<br /> Multicast
RFC 2236<br />Leave and join latency resolved<br />Group specific query to G instead of 224.0.0.1<br />Leave group message<br />Election of querier (lowest IP) on broadcast medium with multiple routers <br /> Multicast
Update from client peer - sends update to all non-client peers and client peers except for originating peer.<br />Update from non-client peer - send update to all clients in the cluster.<br />Update from EBGP peer - update sent to all client peers an
This should only be for ISP's<br />An improperly configured AS (that is not meant to be a transit) could inadvertently become one.<br /> BGP
50. What does BGP use for communication? What advantage does it offer?
One-to-many: video distribution<br />Many-to-many: Collaboration<br />Many-to-one: auction - polling or data collection<br />Few-to-many: auction - polling or data collection<br /> Multicast
Most applications rely on UDP<br />Security issues<br />Out of order delivery & duplicate packets are a possibility during topology changes.<br />Lack of windowing/congestion control.<br /> Multicast
Router(config-router)# neighbor 192.168.1.1 remote-as 65000<br />Router(config-router)# neighbor 192.168.1.1 route-reflector-client<br /> BGP
TCP port 179<br />Reliability; uses sliding window<br />Triggered - incremental updates made very efficient<br /> BGP