CS计算机代考程序代写 Module 9: FHRP Concepts

Module 9: FHRP Concepts
Switching, Routing and Wireless Essentials v7.0 (SRWE)

Module Objectives
Module Title: FHRP Concepts
Module Objective: Explain how FHRPs provide default gateway services in a redundant network.
Topic Title
Topic Objective
First Hop Redundancy Protocols
Explain the purpose and operation of first hop redundancy protocols.
HSRP
Explain how HSRP operates.
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9.1 First Hop Redundancy Protocols
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First Hop Redundancy Protocols Default Gateway Limitations
End devices are typically configured with a single default gateway IPv4 address.
• If the default gateway router interface fails, LAN
hosts lose outside LAN connectivity.
• This occurs even if a redundant router or Layer 3
switch that could serve as a default gateway exists.
First hop redundancy protocols (FHRPs) are mechanisms that provide alternate default gateways in switched networks where two or more routers are connected to the same VLANs.
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First Hop Redundancy Protocols Router Redundancy
One way to prevent a single point of failure at the default gateway is to implement a virtual router. To implement this type of router redundancy, multiple routers are configured to work together to present the illusion of a single router to the hosts on the LAN. By sharing an IP address and a MAC address, two or more routers can act as a single virtual router.
• The IPv4 address of the virtual router is configured as the default gateway for the workstations on a specific IPv4 segment.
• When frames are sent from host devices to the default gateway, the hosts use ARP to resolve the MAC address that is associated with the IPv4 address of the default gateway. The ARP resolution returns the MAC address of the virtual router. Frames that are sent to the MAC address of the virtual router can then be physically processed by the currently active router within the virtual router group.
• A protocol is used to identify two or more routers as the devices that are responsible for processing frames that are sent to the MAC or IP address of a single virtual router. Host devices send traffic to the address of the virtual router. The physical router that forwards this traffic is transparent to the host devices.
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First Hop Redundancy Protocols Router Redundancy (Cont.)
• A redundancy protocol provides the mechanism for determining which router should take the active role in forwarding traffic. It also determines when the forwarding role must be taken over by a standby router. The transition from one forwarding router to another is transparent to the end devices.
• The ability of a network to dynamically recover from the failure of a device acting as a default gateway is known as first-hop redundancy.
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First Hop Redundancy Protocols Steps for Router Failover
When the active router fails, the redundancy protocol transitions the standby router to the new active router role, as shown in the figure. These are the steps that take place when the active router fails:
1. The standby router stops seeing Hello messages from the forwarding router.
2. The standby router assumes the role of the forwarding router.
3. Because the new forwarding router assumes both the IPv4 and MAC addresses of the virtual router, the host devices see no disruption in service.
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First Hop Redundancy Protocols FHRP Options
FHRP Options
Description
Hot Standby Router Protocol (HSRP)
HRSP is a Cisco-proprietary FHRP that is designed to allow for transparent failover of a first-hop IPv4 device. HSRP is used in a group of routers for selecting an active device and a standby device. The active device is the device that is used for routing packets; the standby device is the device that takes over when the active device fails, or when pre-set conditions are met.
HSRP for IPv6
This is a Cisco-proprietary FHRP that provides the same functionality of HSRP, but in an IPv6 environment. An HSRP IPv6 group has a virtual MAC address derived from the HSRP group number and a virtual IPv6 link-local address derived from the HSRP virtual MAC address. Periodic router advertisements (RAs) are sent for the HSRP virtual IPv6 link-local address when the HSRP group is active. When the group becomes inactive, these RAs stop after a final RA is sent.
Virtual Router Redundancy Protocol version 2 (VRRPv2)
This is a non-proprietary election protocol that dynamically assigns responsibility for one or more virtual routers to the VRRP routers on an IPv4 LAN. This allows several routers on a multiaccess link to use the same virtual IPv4 address. In a VRRP configuration, one router is elected as the virtual router master, with the other routers acting as backups, in case the virtual router master fails.
VRRPv3
This provides the capability to support IPv4 and IPv6 addresses. VRRPv3 works in multi-vendor environments and is more scalable than VRRPv2.
Gateway Load Balancing Protocol (GLBP)
This is a Cisco-proprietary FHRP that protects data traffic from a failed router or circuit, like HSRP and VRRP, while also allowing load balancing (also called load sharing) between a group of redundant routers.
GLBP for IPv6
This is a Cisco-proprietary FHRP that provides the same functionality of GLBP, but in an IPv6 environment. GLBP for IPv6 provides automatic router backup for IPv6 hosts configured with a single default gateway on a LAN. Multiple first-hop routers on the LAN combine to offer a single virtual first-hop IPv6 router while sharing the IPv6 packet forwarding load.
ICMP Router Discovery Protocol (IRDP)
Specified in RFC 1256, IRDP is a legacy FHRP solution. IRDP allows IPv4 hosts to locate routers that provide IPv4 connectivity to other (nonlocal) IP networks.
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9.2 HSRP
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HSRP
HSRP Overview
Cisco provides HSRP and HSRP for IPv6 as a way to avoid losing outside network access if your default router fails. HSRP is a Cisco-proprietary FHRP that is designed to allow for transparent failover of a first-hop IP device.
HSRP ensures high network availability by providing first-hop routing redundancy for IP hosts on networks configured with an IP default gateway address. HSRP is used in a group of routers for selecting an active device and a standby device. In a group of device interfaces, the active device is the device that is used for routing packets; the standby device is the device that takes over when the active device fails, or when pre-set conditions are met. The function of the HSRP standby router is to monitor the operational status of the HSRP group and to quickly assume packet-forwarding responsibility if the active router fails.
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HSRP
HSRP Priority and Preemption
The role of the active and standby routers is determined during the HSRP election process. By default, the router with the numerically highest IPv4 address is elected as the active router. However, it is always better to control how your network will operate under normal conditions rather than leaving it to chance.
• HSRP priority can be used to determine the active router.
• The router with the highest HSRP priority will become the active router.
• By default, the HSRP priority is 100.
• If the priorities are equal, the router with the numerically highest IPv4 address is elected as the active router.
• To configure a router to be the active router, use
the standby priority interface command. The range of the HSRP priority is 0 to 255.
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HSRP
HSRP Priority and Preemption (Cont.)
By default, after a router becomes the active router, it will remain the active router even if another router comes online with a higher HSRP priority.
• To force a new HSRP election process to take place when a higher priority router comes online, preemption must be enabled using the standby preempt interface command. Preemption is the ability of an HSRP router to trigger the re-election process. With preemption enabled, a router that comes online with a higher HSRP priority will assume the role of the active router.
• Preemption only allows a router to become the active router if it has a higher priority. A router enabled for preemption, with equal priority but a higher IPv4 address will not preempt an active router. Refer to the topology in the figure.
Note: With preemption disabled, the router that boots up first will become the active router if there are no other routers online during the election process.
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HSRP
HSRP States and Times
HSRP State
Description
Initial
This state is entered through a configuration change or when an interface first becomes available.
Learn
The router has not determined the virtual IP address and has not yet seen a hello message from the active router. In this state, the router waits to hear from the active router.
Listen
The router knows the virtual IP address, but the router is neither the active router nor the standby router. It listens for hello messages from those routers.
Speak
The router sends periodic hello messages and actively participates in the election of the active and/or standby router.
Standby
The router is a candidate to become the next active router and sends periodic hello messages.
The active and standby HSRP routers send hello packets to the HSRP group multicast address every 3 seconds by default. The standby router will become active if it does not receive a hello message from the active router after 10 seconds. You can lower these timer settings to speed up the failover or preemption. However, to avoid increased CPU usage and unnecessary standby state changes, do not set the hello timer below 1 second or the hold timer below 4 seconds.
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9.3 Module Practice and Quiz
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Module Practice and Quiz
What Did I Learn In This Module?
• FHRP provides alternate default gateways in switched networks where two or more routers are connected to the same VLANs.
• One way to prevent a single point of failure at the default gateway, is to implement a virtual router. With a virtual router, multiple routers are configured to work together to present the illusion of a single router to the hosts on the LAN.
• When the active router fails, the redundancy protocol transitions the standby router to the new active router role. These are the steps that take place when the active router fails:
• The standby router stops seeing Hello messages from the forwarding router.
• The standby router assumes the role of the forwarding router.
• Because the new forwarding router assumes both the IPv4 and MAC addresses of the virtual router, the
host devices see no disruption in service.
• The FHRP used in a production environment largely depends on the equipment and needs of the network.
These are the options available for FHRPs:
• HSRP and HSRP for IPv6
• VRRPv2 and VRRPv3
• GLBP and GLBP for IPv6
• IRDP
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Module Practice and Quiz
What Did I Learn In This Module? (Cont.)
• HSRP is a Cisco-proprietary FHRP designed to allow for transparent failover of a first-hop IP device. HSRP is used in a group of routers for selecting an active device and a standby device.
• In a group of device interfaces, the active device is the device that is used for routing packets; the standby device is the device that takes over when the active device fails, or when pre-set conditions are met. The function of the HSRP standby router is to monitor the operational status of the HSRP group and to quickly assume packet-forwarding responsibility if the active router fails.
• The router with the highest HSRP priority will become the active router. Preemption is the ability of an HSRP router to trigger the re-election process. With preemption enabled, a router that comes online with a higher HSRP priority will assume the role of the active router. HSRP states include initial, learn, listen, speak, and standby
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