CCNP

Instructions:

• Answer 50 questions in 15 minutes.
• If you are not ready to take this test, you can study here.
• 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. What is a neighbor call in BGP?
The neighbor expects to see the updates from the source address configured in the neighbor statement. BGP
Class D address space<br />First bits are ALWAYS 1110<br />224.0.0.0 - 239.255.255.255<br /> Multicast
BGP peer BGP
Session description &amp; announcement.<br />Transport session announcement via 224.2.127.254.<br />Creation of new sessions.<br /> Multicast


2. What are the administrative distances of eBGP and iBGP?
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
EBGP = 20<br />iBGP = 200<br /> BGP
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
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


3. What is the formula to determine number of links in a full mesh topology?
The is the multicast bit. Multicast
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
Links = n(n-1)/2 BGP
Routes learned through IBPG are never propogated to other IBGP speakers.<br /><br />This is a loop prevention mechanism. BGP


4. After the path selection process - What does BGP do with the route?
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
Places it in the routing table. BGP
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
Routes learned through IBPG are never propogated to other IBGP speakers.<br /><br />This is a loop prevention mechanism. BGP


5. Explain how the multicast routing table is populated.
The is the multicast bit. Multicast
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
The unicast routing table.<br />No routing updates are sent between PIM routers.<br /> Multicast
Router#show ip igmp interface fa0/0<br /> Multicast


6. Explain the path selection process for BGP? What is the order and what preference does it take?
Router#show ip igmp group<br />Group address - interface - uptime - expires - and last reporter.<br /> Multicast
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)<
EBGP = 20<br />iBGP = 200<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


7. Name what an update message may include.
Most applications rely on UDP<br />Security issues<br />Out of order delivery &amp; duplicate packets are a possibility during topology changes.<br />Lack of windowing/congestion control.<br /> Multicast
BGP peer BGP
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
Class D address space<br />First bits are ALWAYS 1110<br />224.0.0.0 - 239.255.255.255<br /> Multicast


8. What are the 4 categories of BGP attributes and what do they mean?
IGMP Snooping - requires special ASICS can degrade performance with it; is supported by multiple vendors.<br />CGMP - Cisco proprietary - only work on Cisco hardware; resource friendly<br />GMRP - Replaced by MRP; obscure<br />Manually - Performance
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
Well-known Mandatory - Must be supported and propagated.<br />Well-known Discretionary - Must be supported; propagation optional.<br />Optional Transitive - Marked as partial if unsupported by neighbor.<br />Option Nontransitive - Deleted is unsuppor
Class D address space<br />First bits are ALWAYS 1110<br />224.0.0.0 - 239.255.255.255<br /> Multicast


9. What are two methods of establishing a gateway of last resort?
Default-Network<br />Static route<br /> BGP
The neighbor expects to see the updates from the source address configured in the neighbor statement. 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
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)<


10. Which IOS command shows what version of IGMP is running?
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)<
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
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#show ip igmp interface fa0/0<br /> Multicast


11. Explain the MED attribute.

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12. What effect does (S -G) and (* -G) entries have on router CPU?
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
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
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/
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


13. What is the significance of an AS being a transit AS?

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14. What advantage does multicast offer?
Efficiency<br />Performance<br />Scalability with applications<br /> Multicast
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
EBGP is an adjacency between BGP peers in different AS; iBGP peers are in same AS. BGP
Session description &amp; announcement.<br />Transport session announcement via 224.2.127.254.<br />Creation of new sessions.<br /> Multicast


15. What are the basic commands to enable BGP - define a BGP peer relationship and advertise a network?
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
The unicast routing table.<br />No routing updates are sent between PIM routers.<br /> Multicast
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
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


16. What effect will placing a route to null0 have on BGP?
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
BPG will find an exact match. 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
Bidirection PIM mode - designed for many to many applications.<br />Source Specific Multicast (SSM) ; builds only source specific shortest path trees.<br /> Multicast


17. What does a 0.0.0.0 signify in the Next Hop column in the BGP Table?
IANA delegates to Regional Internet Registries (RIRs):<br />ARIN - AfriNIC - APNIC - LACNIC and RIPE NCC<br /> BGP
Session description &amp; announcement.<br />Transport session announcement via 224.2.127.254.<br />Creation of new sessions.<br /> Multicast
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
This router originated the route. BGP


18. What are the commands to enable multicast routing on a router?
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
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
Class D address space<br />First bits are ALWAYS 1110<br />224.0.0.0 - 239.255.255.255<br /> Multicast
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


19. Describe how PIM-SM operates.
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
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
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
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


20. What is a BGP peer group?

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21. What are the methods to control multicast within the layer 2 domain? What are some benefits &amp; drawbacks of each?
IGMP Snooping - requires special ASICS can degrade performance with it; is supported by multiple vendors.<br />CGMP - Cisco proprietary - only work on Cisco hardware; resource friendly<br />GMRP - Replaced by MRP; obscure<br />Manually - Performance
MOSPF<br />DVMRP<br />CBT<br />PIM Dense Mode<br />PIM Sparse Mode<br />PIM Sparse-Dense Mode<br /> Multicast
This will advertise the entire classful network:<br />R1(config-router)# network 10.1.1.0<br /><br />This will advertise the the classless network:<br />R1(config-router)# network 10.1.1.0 mask 255.255.255.0<br /><br /> BGP
Rule: Router must be known by an IGP before it may be advertised by BGP peers.<br />Prevents 'blackholes' when AS is a transit network and not all speaker are running BGP<br />Should be left on it AS is a transit AS and not all routers run BGP.<br />


22. Explain the methods of advertising networks in BGP.
BGP Table - BGP topology database - information <br />BGP Neighbor Table - list of connected neighbors<br />IP Routing Table - Duh.<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
This will advertise the entire classful network:<br />R1(config-router)# network 10.1.1.0<br /><br />This will advertise the the classless network:<br />R1(config-router)# network 10.1.1.0 mask 255.255.255.0<br /><br /> BGP
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


23. What does a '*' and '&gt;' mean in the BGP table?
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
(S -G) - 'S comma G'; Source sending to the group. Typically reflect a source tree but can appear on a shared tree. Traffic forwarded via the shortest path from the source.<br />(* -G) - 'Star comma G'; Any source sending to the group. Traffic forwar
* = Best route<br />&gt; = Route has been inserted into the routing table<br /> BGP
R1(config-router)#neighbor 192.168.1.1 password MyPassword<br /><br />OR<br /><br />R1(config-router)#neighbor MyPeerGroup password MyPassword<br /> BGP


24. What is the IBGP Split Horizon rule? What does this accomplish?
Routes learned through IBPG are never propogated to other IBGP speakers.<br /><br />This is a loop prevention mechanism. 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
IGMP Snooping - requires special ASICS can degrade performance with it; is supported by multiple vendors.<br />CGMP - Cisco proprietary - only work on Cisco hardware; resource friendly<br />GMRP - Replaced by MRP; obscure<br />Manually - Performance
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


25. Explain the IGMPv3 membership process and new features.
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
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
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
Bidirection PIM mode - designed for many to many applications.<br />Source Specific Multicast (SSM) ; builds only source specific shortest path trees.<br /> Multicast


26. Name the Well-known mandatory attributes.
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#show ip igmp interface fa0/0<br /> 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
AS-Path<br />Next Hop<br />Origin BGP


27. What does BGP use for communication? What advantage does it offer?
Router#show ip igmp interface fa0/0<br /> Multicast
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
TCP port 179<br />Reliability; uses sliding window<br />Triggered - incremental updates made very efficient<br /> BGP
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


28. Explain the multicast routing table distribution tree notations.

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29. What is the key difference between how a multicast routing protocol forwards packets versus a unicast routing protocol?
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
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
OT<br />Allows the router to 'tag' and thus implement policy based on this tag.<br /> 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


30. Name 6 multicast routing protocols.
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
The unicast routing table.<br />No routing updates are sent between PIM routers.<br /> Multicast
MOSPF<br />DVMRP<br />CBT<br />PIM Dense Mode<br />PIM Sparse Mode<br />PIM Sparse-Dense Mode<br /> Multicast
TCP port 179<br />Reliability; uses sliding window<br />Triggered - incremental updates made very efficient<br /> BGP


31. Name the Well-known discretionary attributes.
AS-Path<br />Next Hop<br />Origin BGP
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
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
Local preference<br />Atomic Aggregate BGP


32. Explain the concept of RPF.
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
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
It actually determines which networks are advertised. 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


33. Name to enhancements to PIM.
Well know predefined group<br />Directory - sd / SDP<br />Webpage/URL<br />Email link<br /> Multicast
Bidirection PIM mode - designed for many to many applications.<br />Source Specific Multicast (SSM) ; builds only source specific shortest path trees.<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
Must insure loopback is reachable in the routing table. BGP


34. What special consideration is there when peering to a eBGP neighbor using a loopback? What is the solution to this?
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
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
IGMP Snooping - requires special ASICS can degrade performance with it; is supported by multiple vendors.<br />CGMP - Cisco proprietary - only work on Cisco hardware; resource friendly<br />GMRP - Replaced by MRP; obscure<br />Manually - Performance
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


35. What are some of the obstacles with IGMP and multicast in general as it relates to layer 2/switches?
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
'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
Router#(config) ip pim spt-threshold {rate | infinity} [group-list access-list] Multicast
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


36. What entities are responsible for allocating BGP AS numbers?
IANA delegates to Regional Internet Registries (RIRs):<br />ARIN - AfriNIC - APNIC - LACNIC and RIPE NCC<br /> BGP
Links = n(n-1)/2 BGP
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
Rule: Router must be known by an IGP before it may be advertised by BGP peers.<br />Prevents 'blackholes' when AS is a transit network and not all speaker are running BGP<br />Should be left on it AS is a transit AS and not all routers run BGP.<br />


37. What is the significance of the 8th bit in the MAC address?
Router#(config) ip pim send-rp-announce interface_type scope ttl group-list access-list Multicast
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
The is the multicast bit. Multicast
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


38. Explain the AS-Path attribute.

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39. What is the command to enable BPG authentication?
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
16 bit number 1 to 65535<br />1-64511: Public AS<br />64512-6535: Reserved for private AS<br /> BGP
R1(config-router)#neighbor 192.168.1.1 password MyPassword<br /><br />OR<br /><br />R1(config-router)#neighbor MyPeerGroup password MyPassword<br /> 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


40. IOS command to configure router to be a member of an IGMP group or statically connected member.
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
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
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
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


41. Name a significant inefficiency with IGMPv1.
BGP Table - BGP topology database - information <br />BGP Neighbor Table - list of connected neighbors<br />IP Routing Table - Duh.<br /> BGP
IANA delegates to Regional Internet Registries (RIRs):<br />ARIN - AfriNIC - APNIC - LACNIC and RIPE NCC<br /> BGP
Members leave through attrition; no leave group message. This keep traffic flowing for a period of time even with no group members. 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


42. State how IGMPv1 operates.
16 bit number 1 to 65535<br />1-64511: Public AS<br />64512-6535: Reserved for private AS<br /> BGP
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
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
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


43. What is the hop-by-hop routing paradigm of BGP?

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44. Explain the Local Preference attribute.<br />

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45. 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?
'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
Well-known Mandatory - Must be supported and propagated.<br />Well-known Discretionary - Must be supported; propagation optional.<br />Optional Transitive - Marked as partial if unsupported by neighbor.<br />Option Nontransitive - Deleted is unsuppor
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


46. What is one method involving minimal configuration to prevent and multi-homed BGP network from becoming a transit AS?
(S -G) - 'S comma G'; Source sending to the group. Typically reflect a source tree but can appear on a shared tree. Traffic forwarded via the shortest path from the source.<br />(* -G) - 'Star comma G'; Any source sending to the group. Traffic forwar
16 bit number 1 to 65535<br />1-64511: Public AS<br />64512-6535: Reserved for private AS<br /> BGP
Using a Distribute List to filter outbound routing updates. BGP
Router#(config) ip pim spt-threshold {rate | infinity} [group-list access-list] Multicast


47. 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
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
OT<br />Allows the router to 'tag' and thus implement policy based on this tag.<br /> 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


48. Explain the way RR handles route updates.
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
Well-known Mandatory - Must be supported and propagated.<br />Well-known Discretionary - Must be supported; propagation optional.<br />Optional Transitive - Marked as partial if unsupported by neighbor.<br />Option Nontransitive - Deleted is unsuppor
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
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


49. Explain the relationship between MBone - DVMRP - PIM - IGMP - CGMP hosts - routers and switches?

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50. Explain the contents of the BGP update message.
IGMP Snooping - requires special ASICS can degrade performance with it; is supported by multiple vendors.<br />CGMP - Cisco proprietary - only work on Cisco hardware; resource friendly<br />GMRP - Replaced by MRP; obscure<br />Manually - Performance
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
Efficiency<br />Performance<br />Scalability with applications<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