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certification:tech:network:cisco:ccie:ccie-rsv5:lab:lab

CCIE Routing and Switching v5.0 Lab Exam

Abstract

  • 1.0 Layer 2 Technologies
    • 1.1 LAN switching technologies
      • 1.1.a Implement and troubleshoot switch administration
        • 1.1.a [i] Managing MAC address table
        • 1.1.a [ii] errdisable recovery
        • 1.1.a [iii] L2 MTU
      • 1.1.b Implement and troubleshoot layer 2 protocols
        • 1.1.b [i] CDP, LLDP
        • 1.1.b [ii] UDLD
      • 1.1.c Implement and troubleshoot VLAN
        • 1.1.c [i] access ports
        • 1.1.c [ii] VLAN database
        • 1.1.c [iii] normal, extended VLAN, voice VLAN
      • 1.1.d Implement and troubleshoot trunking
        • 1.1.d [i] VTPv1, VTPv2, VTPv3, VTP pruning
        • 1.1.d [ii] dot1Q
        • 1.1.d [iii] Native VLAN
        • 1.1.d [iv] Manual pruning
      • 1.1.e Implement and troubleshoot etherchannel
        • 1.1.e [i] LACP, PAgP, manual
        • 1.1.e [ii] layer 2, layer 3
        • 1.1.e [iii] load-balancing
        • 1.1.e [iv] etherchannel misconfiguration guard
      • 1.1.f Implement and troubleshoot spanning-tree
        • 1.1.f [i] PVST+/RPVST+/MST
        • 1.1.f [ii] switch priority, port priority, path cost, STP timers
        • 1.1.f [iii] port fast, BPDUguard, BPDUfilter
        • 1.1.f [iv] loopguard, rootguard
      • 1.1.g Implement and troubleshoot other LAN switching technologies
    • 1.2 Layer 2 Multicast
      • 1.2.a Implement and troubleshoot IGMP
        • 1.2.a [I] IGMPv1, IGMPv2, IGMPv3
        • 1.2.a [ii] IGMP snooping
        • 1.2.a [iii] IGMP querier
        • 1.2.a [iv] IGMP filter
        • 1.2.a [v] IGMP proxy
    • 1.3 Layer 2 WAN circuit technologies
      • 1.3.a Implement and troubleshoot HDLC
      • 1.3.b Implement and troubleshoot PPP
        • 1.3.b [i] authentication [PAP, CHAP]
        • 1.3.b [ii] PPPoE
        • 1.3.b [iii] MLPPP
    • 1.4 Troubleshooting layer 2 technologies
      • 1.4.a Use IOS troubleshooting tools
        • 1.4.a [i] debug, conditional debug
        • 1.4.a [ii] ping, traceroute with extended options
        • 1.4.a [iii] Embedded packet capture
      • 1.4.b Apply troubleshooting methodologies
        • 1.4.b [i] Diagnose the root cause of networking issue [analyze symptoms, identify and describe root cause]
        • 1.4.b [ii] Design and implement valid solutions according to constraints
        • 1.4.b [iii] Verify and monitor resolution
      • 1.4.c Interpret packet capture
        • 1.4.c [i] Using wireshark trace analyzer
        • 1.4.c [ii] Using IOS embedded packet capture
  • 2.0 Layer 3 Technologies
    • 2.1 Addressing technologies
      • 2.1.a Identify, implement and troubleshoot IPv4 addressing and sub-netting
        • 2.1.a [i] Address types, VLSM
        • 2.1.a [ii] ARP
      • 2.1.b Identify, implement and troubleshoot IPv6 addressing and sub-netting
        • 2.1.b [i] Unicast, multicast
        • 2.1.b [ii] EUI-64
        • 2.1.b [iii] ND, RS/RA
        • 2.1.b [iv] Autoconfig/SLAAC temporary addresses [RFC4941]
        • 2.1.b [v] Global prefix configuration feature
    • 2.2 Layer 3 Multicast
      • 2.2.a Troubleshoot reverse path forwarding
        • 2.2.a [i] RPF failure
        • 2.2.a[ii] RPF failure with tunnel interface
      • 2.2.b Implement and troubleshoot IPv4 protocol independent multicast
        • 2.2.b [i] PIM dense mode, sparse mode, sparse-dense mode
        • 2.2.b [ii] Static RP, auto-RP, BSR
        • 2.2.b [iii] Bidirectional PIM
        • 2.2.b [iv] Source-specific multicast
        • 2.2.b [v] Group to RP mapping
        • 2.2.b [vi] Multicast boundary
      • 2.2.c Implement and troubleshoot multicast source discovery protocol
        • 2.2.c.[i] Intra-domain MSDP [anycast RP]
        • 2.2.c.[ii] SA filter
    • 2.3 Fundamental routing concepts
      • 2.3.a Implement and troubleshoot static routing
      • 2.3.b Implement and troubleshoot default routing
      • 2.3.c Compare routing protocol types
        • 2.3.c [i] distance vector
        • 2.3.c [ii] link state
        • 2.3.c [iii] path vector
      • 2.3.d Implement, optimize and troubleshoot administrative distance
      • 2.3.e Implement and troubleshoot passive interface
      • 2.3.f Implement and troubleshoot VRF lite
      • 2.3.g Implement, optimize and troubleshoot filtering with any routing protocol
      • 2.3.h Implement, optimize and troubleshoot redistribution between any routing protocol
      • 2.3.i Implement, optimize and troubleshoot manual and auto summarization with any routing protocol
      • 2.3.j Implement, optimize and troubleshoot policy-based routing
      • 2.3.k Identify and troubleshoot sub-optimal routing
      • 2.3.l Implement and troubleshoot bidirectional forwarding detection
      • 2.3.m Implement and troubleshoot loop prevention mechanisms
        • 2.3.m [i] Route tagging, filtering
        • 2.3.m [ii] Split horizon
        • 2.3.m [iii] Route poisoning
      • 2.3.n Implement and troubleshoot routing protocol authentication
        • 2.3.n [i] MD5
        • 2.3.n [ii] key-chain
        • 2.3.n [iii] EIGRP HMAC SHA2-256bit
        • 2.3.n [iv] OSPFv2 SHA1-196bit
        • 2.3.n [v] OSPFv3 IPsec authentication
    • 2.4 RIP v2
      • 2.4.a Implement and troubleshoot RIPv2
      • 2.5.a Describe packet types
        • 2.5.a [i] Packet types [hello, query, update, and such]
        • 2.5.a [ii] Route types [internal, external]
      • 2.5.b Implement and troubleshoot neighbor relationship
        • 2.5.b [i] Multicast, unicast EIGRP peering
      • 2.5.c Implement and Troubleshoot Loop free path selection
        • 2.5.c [i] RD, FD, FC, successor, feasible successor
        • 2.5.c [ii] Classic metric
        • 2.5.c [iii] Wide metric
      • 2.5.d Implement and troubleshoot operations
        • 2.5.d [i] General operations
        • 2.5.d [ii] Topology table, update, query, active, passive
        • 2.5.d [iii] Stuck in active
        • 2.5.d [iv] Graceful shutdown
      • 2.5.e Implement and troubleshoot EIGRP stub
        • 2.5.e [i] stub
        • 2.5.e [ii] leak-map
      • 2.5.f Implement and troubleshoot load-balancing
        • 2.5.f [i] equal-cost
        • 2.5.f [ii] unequal-cost
        • 2.5.f [iii] add-path
      • 2.5.g Implement EIGRP [multi-address] named mode
        • 2.5.g [i] Types of families
        • 2.5.g [ii] IPv4 address-family
        • 2.5.g [iii] IPv6 address-family
      • 2.5.h Implement, troubleshoot and optimize EIGRP convergence and scalability
        • 2.5.h [i] Describe fast convergence requirements
        • 2.5.h [ii] Control query boundaries
        • 2.5.h [iii] IP FRR/fast reroute [single hop]
        • 2.5.h [iv] Summary leak-map
        • 2.5.h [v] Summary metric
    • 2.6 OSPF [v2 and v3]
      • 2.6.a Describe packet types
        • 2.6.a [i] LSA types [1, 2, 3, 4, 5, 7, 9]
        • 2.6.a [ii] Route types [N1, N2, E1, E2]
      • 2.6.b Implement and troubleshoot neighbor relationship
      • 2.6.c Implement and troubleshoot OSPFv3 address-family support
        • 2.6.c [i] IPv4 address-family
        • 2.6.c [ii] IPv6 address-family
      • 2.6.d Implement and troubleshoot network types, area types and router types
        • 2.6.d [i] Point-to-point, multipoint, broadcast, non-broadcast
        • 2.6.d [ii] LSA types, area type: backbone, normal, transit, stub, NSSA, totally stub
        • 2.6.d [iii] Internal router, ABR, ASBR
        • 2.6.d [iv] Virtual link
      • 2.6.e Implement and troubleshoot path preference
      • 2.6.f Implement and troubleshoot operations
        • 2.6.f [i] General operations
        • 2.6.f [ii] Graceful shutdown
        • 2.6.f [iii] GTSM [generic TTL security mechanism]
      • 2.6.g Implement, troubleshoot and optimize OSPF convergence and scalability
        • 2.6.g [i] Metrics
        • 2.6.g [ii] LSA throttling, SPF tuning, fast hello
        • 2.6.g [iii] LSA propagation control [area types, ISPF]
        • 2.6.g [iv] IP FR/fast reroute [single hop]
        • 2.6.g [v] LFA/loop-free alternative [multi hop]
        • 2.6.g [vi] OSPFv3 prefix suppression
    • 2.7 BGP
      • 2.7.a Describe, implement and troubleshoot peer relationships
        • 2.7.a [i] Peer-group, template
        • 2.7.a [ii] Active, passive
        • 2.7.a [iii] States, timers
        • 2.7.a [iv] Dynamic neighbors
      • 2.7.b Implement and troubleshoot IBGP and EBGP
        • 2.7.b [i] EBGP, IBGP
        • 2.7.b [ii] 4 bytes AS number
        • 2.7.b [iii] Private AS
      • 2.7.c Explain attributes and best-path selection
      • 2.7.d Implement, optimize and troubleshoot routing policies
        • 2.7.d [i] Attribute manipulation
        • 2.7.d [ii] Conditional advertisement
        • 2.7.d [iii] Outbound route filtering
        • 2.7.d [iv] Communities, extended communities
        • 2.7.d [v] Multi-homing
      • 2.7.e Implement and troubleshoot scalability
        • 2.7.e [i] Route-reflector, cluster
        • 2.7.e [ii] Confederations
        • 2.7.e [iii] Aggregation, AS set
      • 2.7.f Implement and troubleshoot multi-protocol BGP
        • 2.7.f [i] IPv4, IPv6, VPN address-family
      • 2.7.g Implement and troubleshoot AS path manipulations
        • 2.7.g [i] Local AS, allow AS in, remove private AS
        • 2.7.g [ii] Prepend
        • 2.7.g [iii] Regexp
      • 2.7.h Implement and Troubleshoot Other Features
        • 2.7.h [i] Multipath
        • 2.7.h [ii] BGP synchronization
        • 2.7.h [iii] Soft reconfiguration, route refresh
    • 2.8 Troubleshooting layer 3 technologies
      • 2.8.a Use IOS troubleshooting tools
        • 2.8.a [i] debug, conditional debug
        • 2.8.a [ii] ping, traceroute with extended options
        • 2.8.a [iii] Embedded packet capture
      • 2.8.b Apply troubleshooting methodologies
        • 2.8.b [i] Diagnose the root cause of networking issue [analyze symptoms, identify and describe root cause]
        • 2.8.b [ii] Design and implement valid solutions according to constraints
        • 2.8.b [iii] Verify and monitor resolution
      • 2.8.c Interpret packet capture
        • 2.8.c [i] Using wireshark trace analyzer
        • 2.8.c [ii] Using IOS embedded packet capture
  • 3.0 VPN Technologies
    • 3.1 Tunneling
      • 3.1.a Implement and troubleshoot MPLS operations
        • 3.1.a [i] Label stack, LSR, LSP
        • 3.1.a [ii] LDP
        • 3.1.a [iii] MPLS ping, MPLS traceroute
      • 3.1.b Implement and troubleshoot basic MPLS L3VPN
        • 3.1.b [i] L3VPN, CE, PE, P
        • 3.1.b [ii] Extranet [route leaking]
      • 3.1.c Implement and troubleshoot encapsulation
        • 3.1.c [i] GRE
        • 3.1.c [ii] Dynamic GRE
        • 3.1.d Implement and troubleshoot DMVPN [single hub]
        • 3.1.d [i] NHRP
        • 3.1.d [ii] DMVPN with IPsec using preshared key
        • 3.1.d [iii] QoS profile
        • 3.1.d [iv] Pre-classify
    • 3.2 Encryption
      • 3.2.a Implement and troubleshoot IPsec with preshared key
        • 3.2.a [i] IPv4 site to IPv4 site
        • 3.2.a [ii] IPv6 in IPv4 tunnels
        • 3.2.a [iii] Virtual tunneling interface [VTI]
    • 3.3 Troubleshooting VPN technologies
      • 3.3.a Use IOS troubleshooting tools
        • 3.3.a [i] debug, conditional debug
        • 3.3.a [ii] ping, traceroute with extended options
        • 3.3.a [iii] Embedded packet capture
      • 3.3.b Apply troubleshooting methodologies
        • 3.3.b [i] Diagnose the root cause of networking issue [analyze symptoms, identify and describe root cause]
        • 3.3.b [ii] Design and implement valid solutions according to constraints
        • 3.3.b [iii] Verify and monitor resolution
      • 3.3.c Interpret packet capture
        • 3.3.c [i] Using wireshark trace analyzer
        • 3.3.c [ii] Using IOS embedded packet capture
  • 4.0 Infrastructure Security
    • 4.1 Device security
    • 4.2 Network security
    • 4.3 Troubleshooting infrastructure security
      • 4.3.a Use IOS troubleshooting tools
        • 4.3.a [i] debug, conditional debug
        • 4.3.a [ii] ping, traceroute with extended options
        • 4.3.a [iii] Embedded packet capture
      • 4.3.b Apply troubleshooting methodologies
        • 4.3.b [i] Diagnose the root cause of networking issue [analyze symptoms, identify and describe root cause]
        • 4.3.b [ii] Design and implement valid solutions according to constraints
        • 4.3.b [iii] Verify and monitor resolution
      • 4.3.c Interpret packet capture
        • 4.3.c [i] Using wireshark trace analyzer
        • 4.3.c [ii] Using IOS embedded packet capture
  • 5.0 Infrastructure Services
    • 5.1 System management
      • 5.1.a Implement and troubleshoot device management
        • 5.1.a [i] Console and VTY
        • 5.1.a [ii] telnet, HTTP, HTTPS, SSH, SCP
        • 5.1.a [iii] [T]FTP
      • 5.1.b Implement and troubleshoot SNMP
        • 5.1.b [i] v2c, v3
      • 5.1.c Implement and troubleshoot logging
        • 5.1.c [i] Local logging, syslog, debug, conditional debug
        • 5.1.c [ii] Timestamp
    • 5.2 Quality of service
      • 5.2.a Implement and troubleshoot end to end QoS
        • 5.2.a [i] CoS and DSCP mapping
      • 5.2.b Implement, optimize and troubleshoot QoS using MQC
        • 5.2.b [i] Classification
        • 5.2.b [ii] Network based application recognition [NBAR]
        • 5.2.b [iii] Marking using IP precedence, DSCP, CoS, ECN
        • 5.2.b [iv] Policing, shaping
        • 5.2.b [v] Congestion management [queuing]
        • 5.2.b [vi] HQoS, sub-rate ethernet link
        • 5.2.b [vii] Congestion avoidance [WRED]
    • 5.3 Network services
      • 5.3.a Implement and troubleshoot first-hop redundancy protocols
        • 5.3.a [i] HSRP, GLBP, VRRP
        • 5.3.a [ii] Redundancy using IPv6 RS/RA
      • 5.3.b Implement and troubleshoot network time protocol
        • 5.3.b [i] NTP master, client, version 3, version 4
        • 5.3.b [ii] NTP authentication
      • 5.3.c Implement and troubleshoot IPv4 and IPv6 DHCP
        • 5.3.c [i] DHCP client, IOS DHCP server, DHCP relay
        • 5.3.c [ii] DHCP options
        • 5.3.c [iii] DHCP protocol operations
        • 5.3.c [iv] SLAAC/DHCPv6 interaction
        • 5.3.c [v] Stateful, stateless DHCPv6
        • 5.3.c [vi] DHCPv6 prefix delegation
      • 5.3.d Implement and troubleshoot IPv4 network address translation
        • 5.3.d [i] Static NAT, dynamic NAT, policy-based NAT, PAT
        • 5.3.d [ii] NAT ALG
    • 5.4 Network optimization
      • 5.4.a Implement and troubleshoot IP SLA
      • 5.4.b Implement and troubleshoot tracking object
        • 5.4.b [i] Tracking object, tracking list
        • 5.4.b [ii] Tracking different entities [e.g. interfaces, routes, IPSLA, and such]
      • 5.4.c Implement and troubleshoot netflow
        • 5.4.c [i] Netflow v5, v9
        • 5.4.c [ii] Local retrieval
        • 5.4.c [iii] Export [configuration only]
      • 5.4.d Implement and troubleshoot embedded event manager
        • 5.4.d [i] EEM policy using applet
    • 5.5 Troubleshooting infrastructure services
      • 5.5.a Use IOS troubleshooting tools
        • 5.5.a [i] debug, conditional debug
        • 5.5.a [ii] ping, traceroute with extended options
        • 5.5.a [iii] Embedded packet capture
      • 5.5.b Apply troubleshooting methodologies
        • 5.5.b [i] Diagnose the root cause of networking issue [analyze symptoms, identify and describe root cause]
        • 5.5.b [ii] Design and implement valid solutions according to constraints
        • 5.5.b [iii] Verify and monitor resolution
      • 5.5.c Interpret packet capture
        • 5.5.c [i] Using wireshark trace analyzer
        • 5.5.c [ii] Using IOS embedded packet capture
certification/tech/network/cisco/ccie/ccie-rsv5/lab/lab.txt · Last modified: 2019/12/16 18:05 by wnoguchi