H3C Technologies H3C SR8800 User Manual
Layer 3—ip routing configuration guide
This manual is related to the following products:
- H3C SR6600-X H3C SR6600 H3C WX6000 Series Access Controllers H3C WX5000 Series Access Controllers H3C WX3000 Series Unified Switches H3C LSWM1WCM10 Access Controller Module H3C LSWM1WCM20 Access Controller Module H3C LSQM1WCMB0 Access Controller Module H3C LSRM1WCM2A1 Access Controller Module H3C LSBM1WCM2A0 Access Controller Module
Table of contents
Document Outline
- Title Page
- Preface
- Contents
- IP routing basics
- Configuring static routing
- Introduction
- Configuring a static route
- Detecting reachability of the static route’s next hop
- Configuring BFD for static routes
- Configuring static route FRR
- Displaying and maintaining static routes
- Static route configuration examples
- Configuring RIP
- RIP overview
- RIP configuration task list
- Configuring RIP basic functions
- Configuring RIP route control
- Tuning and optimizing RIP networks
- Configuring RIP timers
- Configuring split horizon and poison reverse
- Configuring the maximum number of load balanced routes
- Enabling zero field check on incoming RIPv1 messages
- Enabling source IP address check on incoming RIP updates
- Configuring RIPv2 message authentication
- Specifying a RIP neighbor
- Configuring TRIP
- Configuring RIP-to-MIB binding
- Configuring the RIP packet sending rate
- Configuring RIP FRR
- Configuring BFD for RIP
- Displaying and maintaining RIP
- RIP configuration examples
- Configuring RIP version
- Configuring RIP route redistribution
- Configuring an additional metric for a RIP interface
- Configuring RIP to advertise a summary route
- Configuring RIP FRR
- Configuring BFD for RIP (single-hop detection in BFD echo packet mode)
- Configuring BFD for RIP (bidirectional detection in BFD control packet mode)
- Troubleshooting RIP
- Configuring OSPF
- Introduction to OSPF
- OSPF configuration task list
- Enabling OSPF
- Configuring OSPF areas
- Configuring OSPF network types
- Configuring OSPF route control
- Configuration prerequisites
- Configuring OSPF route summarization
- Configuring OSPF inbound route filtering
- Configuring ABR Type-3 LSA filtering
- Configuring an OSPF cost for an interface
- Configuring the maximum number of OSPF routes
- Configuring the maximum number of load-balanced routes
- Configuring OSPF preference
- Configuring OSPF route redistribution
- Advertising a host route
- Tuning and optimizing OSPF networks
- Configuration prerequisites
- Configuring OSPF packet timers
- Specifying LSA transmission delay
- Specifying SPF calculation interval
- Specifying the LSA arrival interval
- Specifying the LSA generation interval
- Disabling interfaces from receiving and sending OSPF packets
- Configuring stub routers
- Configuring OSPF authentication
- Adding the interface MTU into DD packets
- Configuring the maximum number of external LSAs in LSDB
- Enabling compatibility with RFC 1583
- Logging neighbor state changes
- Configuring OSPF network management
- Enabling message logging
- Enabling the advertisement and reception of opaque LSAs
- Configuring OSPF to give priority to receiving and processing hello packets
- Configuring the LSU transmit rate
- Enabling OSPF ISPF
- Configuring OSPF FRR
- Configuring OSPF Graceful Restart
- Configuring BFD for OSPF
- Displaying and maintaining OSPF
- OSPF configuration examples
- Configuring OSPF basic functions
- Configuring OSPF route redistribution
- Configuring OSPF to advertise a summary route
- Configuring an OSPF stub area
- Configuring an OSPF NSSA area
- Configuring OSPF DR election
- Configuring OSPF virtual links
- Configuring OSPF Graceful Restart
- Configuring route filtering
- Configuring OSPF FRR
- Configuring BFD for OSPF
- Troubleshooting OSPF configuration
- Configuring IS-IS
- IS-IS overview
- IS-IS configuration task list
- Configuring IS-IS basic functions
- Configuring IS-IS routing information control
- Configuration prerequisites
- Configuring IS-IS link cost
- Specifying a priority for IS-IS
- Configuring the maximum number of equal cost routes
- Configuring IS-IS route summarization
- Advertising a default route
- Configuring IS-IS route redistribution
- Configuring IS-IS route filtering
- Configuring IS-IS route leaking
- Tuning and optimizing IS-IS networks
- Configuration prerequisites
- Specifying intervals for sending IS-IS hello and CSNP packets
- Specifying the IS-IS hello multiplier
- Configuring a DIS priority for an interface
- Disabling an interface from sending/receiving IS-IS packets
- Disabling hello source address check for a PPP interface
- Enabling an interface to send small hello packets
- Configuring LSP parameters
- Configuring SPF parameters
- Setting the LSDB overload bit
- Configuring system ID to host name mappings
- Enabling the logging of neighbor state changes
- Enhancing IS-IS network security
- Configuring IS-IS GR
- Configuring IS-IS FRR
- Enabling IS-IS SNMP trap
- Binding an IS-IS process with MIBs
- Configuring BFD for IS-IS
- Displaying and maintaining IS-IS
- IS-IS configuration examples
- Configuring BGP
- BGP overview
- BGP configuration task list
- Configuring BGP basic functions
- Controlling route generation
- Controlling route distribution and reception
- Configuration prerequisites
- Configuring BGP route summarization
- Advertising a default route to a peer or peer group
- Configuring BGP route distribution/reception filtering policies
- Enabling BGP and IGP route synchronization
- Limiting prefixes received from a peer/peer group
- Configuring BGP route dampening
- Configuring a shortcut route
- Configuring BGP route attributes
- Configuration prerequisites
- Specifying a preferred value for routes received
- Configuring preferences for BGP routes
- Configuring the default local preference
- Configuring the MED attribute
- Configuring the next hop attribute
- Configuring the AS-PATH attribute
- Permitting local AS number to appear in routes from a peer/peer group
- Disabling BGP from considering AS_PATH during best route selection
- Specifying a fake AS number for a peer/peer group
- Configuring AS number substitution
- Removing private AS numbers from updates to a peer/peer group
- Ignoring the first AS number of EBGP route updates
- Tuning and optimizing BGP networks
- Configuration prerequisites
- Configuring BGP keepalive interval and holdtime
- Configuring the interval for sending the same update
- Configuring BGP soft-reset
- Enabling the BGP ORF capability
- Enabling 4-byte AS number suppression
- Enabling quick EBGP session reestablishment
- Enabling MD5 authentication for TCP connections
- Configuring BGP load balancing
- Forbiding session establishment with a peer or peer group
- Configuring a large scale BGP network
- Configuring BGP GR
- Enabling Trap
- Enabling logging of peer state changes
- Configuring BFD for BGP
- Displaying and maintaining BGP
- BGP configuration examples
- BGP basic configuration example
- BGP and IGP synchronization configuration example
- BGP load balancing configuration example
- BGP community configuration example
- BGP route reflector configuration example
- BGP confederation configuration example
- BGP path selection configuration example
- BGP GR configuration example
- BFD for BGP configuration example
- Troubleshooting BGP
- Configuring policy-based routing
- Configuring IPv6 static routing
- Configuring RIPng
- Configuring OSPFv3
- Introduction to OSPFv3
- OSPFv3 configuration task list
- Enabling OSPFv3
- Configuring OSPFv3 area parameters
- Configuring OSPFv3 network types
- Configuring OSPFv3 routing information control
- Tuning and optimizing OSPFv3 networks
- Configuring OSPFv3 GR
- Configuring BFD for OSPFv3
- Applying IPsec policies for OSPFv3
- Displaying and maintaining OSPFv3
- OSPFv3 configuration examples
- Troubleshooting OSPFv3 configuration
- Configuring IPv6 IS-IS
- Configuring IPv6 BGP
- IPv6 BGP overview
- IPv6 BGP configuration task list
- Configuring IPv6 BGP basic functions
- Configuration prerequisites
- Specifying an IPv6 BGP peer
- Injecting a local IPv6 route
- Configuring a preferred value for routes from a peer/peer group
- Specifying the source interface for establishing TCP connections
- Allowing the establishment of a non-direct EBGP connection
- Configuring a description for an IPv6 peer/peer group
- Disabling session establishment to an IPv6 peer/peer group
- Logging IPv6 peer/peer group state changes
- Controlling route distribution and reception
- Configuration prerequisites
- Configuring IPv6 BGP route redistribution
- Configuring IPv6 BGP route summarization
- Advertising a default route to an IPv6 peer/peer group
- Configuring outbound route filtering
- Configuring inbound route filtering
- Configuring IPv6 BGP and IGP route synchronization
- Configuring route dampening
- Configuring IPv6 BGP route attributes
- Tuning and optimizing IPv6 BGP networks
- Configuration prerequisites
- Configuring IPv6 BGP timers
- Configuring IPv6 BGP soft reset
- Enabling the IPv6 BGP ORF capability
- Enabling 4-byte AS number suppression
- Configuring the maximum number of load-balanced routes
- Enabling MD5 authentication for TCP connections
- Applying an IPsec policy to an IPv6 BGP peer or peer group
- Configuring a large scale IPv6 BGP network
- Configuring 6PE
- Configuring BFD for IPv6 BGP
- Displaying and maintaining IPv6 BGP
- IPv6 BGP configuration examples
- Troubleshooting IPv6 BGP configuration
- Configuring IPv6 policy-based routing
- Configuring routing policies
- Configuring QoS policy routing
- Index