# Configure VRRP group 1 on SwitchA and SwitchB, set the priority of SwitchA to 120 and the preemption delay to 20s, and set the default priority for SwitchB. I have installed the HedEx Lite, but high-speed download is still unavailable. In a VRRP configuration, one router is elected as the virtual . Security Policy Configuration (Common AP) . SwitchA is used as an example. IP SLA config and static route tracking - Grandmetric Junos OS is the network operating system that powers our broad portfolio of physical and virtual networking and security products. The traffic situation at CIR and PIR values is showed with colors also. When you connect your network to two different Internet service providers (ISPs), it is called multihoming. Configuration examples and differences between Cisco HSRP Example for Configuring a VRRP Group in Load - Huawei # Configure a super-VLAN on SwitchA. Set a higher priority for SwitchA so that SwitchA functions as the master to forward traffic, and set the preemption delay to 20s on SwitchA. Configure IP addresses for the corresponding VLANIF interfaces to make local network segments reachable. The Virtual Router Redundancy Protocol (VRRP) for IPv4 is defined in the IETF RFC 3768, Virtual Router Redundancy Protocol.VRRP for IPv6 is specified in draft-ietf-vrrp-unified-spec-02.txt.VRRP describes a method of implementing a redundant IP interface shared between two or more routers on a common LAN segment, allowing a group of routers to function as one virtual router. preemption delay to 20s. . Run the display bfd session command on SwitchA and SwitchB. You can see that SwitchB is the backup in VRRP group 1 and the master in VRRP group 2. Redundancy Protocol (VRRP). Hope can help you! The virtual IP address of a VRRP group must be on the same network segment as the IP address of the interface where the VRRP group is configured. VRRP is a fault-tolerant Change the preemption delay of the master to prevent service interruptions on an unstable network where devices in the VRRP group preempt to be the master. Information of other VRRP groups is similar to information of VRRP group 1. Huawei S9300: Example for Configuring Priority Re-marking For details, see the configuration files. # Run the display vrrp command on SwitchB. Example for Configuring VRRP HSB - Huawei Uplink port group 1 has two physical ports that connect to the active switch on the management plane of the user network. You can see that SwitchB is the backup. The Virtual Router Redundancy Protocol (VRRP) groups multiple routing devices into a virtual router and uses the virtual gateway device's IP address as the default gateway address. We are going to configure VRRP between the 2 pairs of routers and the expected behavior, setup as per below: Setup: 1. . When SwitchA or a link between SwitchA and SwitchB is faulty, VRRP packets are sent after VRRP negotiation is complete. The virtual IP address of a VRRP group must be on the same network segment as the IP address of the interface where the VRRP group is configured. Report the problem to Huawei technical support website: Download and install the latest HedEx Lite version. By "active," I refer to the fact that IP SLA will generate and actively monitor traffic continuously across the network. VRRP is configuredRead MoreVRRP and BGP Setup Configuration in Cisco Additionally, you can configure Smart Link on the Layer 2 switch to implement load balancing between uplinks while preventing broadcast storms on the Layer 2 ring network. Policy based routing (PBR routing) offers the possibility to forward traffic based on defined criteria without verifying the IP routing table. protocol. Built for reliability, security, and flexibility, Junos OS reduces the time and effort required to plan, deploy, and operate network infrastructure. Lab 2-4 Cisco Device Initial Configuration Dialog. //Set the priority of VLANIF100 in VRRP group 2 to 120. # Configure a VRRP group on SwitchA, and set the priority of SwitchA to 120 and the preemption delay to 20s. First of all Analyze this topology diagram before configuring commands for this topology to understand its experimental purpose and requirements and what you want to achieve. The configuration roadmap is as follows: # Assign an IP address to each interface. BGP Session Reset Whenever the routing policy changes due to a configuration change, BGP peering sessions must be reset by using the clear ip bgp command. To obtain better user experience, upgrade the browser to the latest version. How to Configure ISP Redundancy and Load Balancing Networking Requirements As shown in Figure 1, Host A communicates with Host B through the default gateway. The display on SwitchA is used as an example. Using VRRP to Implement Next-Hop Gateway Backup, Licensing Requirements and Limitations for VRRP, Configuring Basic Functions of an IPv4 VRRP Group, (Optional) Setting the Maximum Number of VRRP Groups, Setting the Device Priority in a VRRP Group, (Optional) Configuring the VRRP Version Number, (Optional) Configuring a VRRP Preemption Mode, (Optional) Configuring VRRP Time Parameters, (Optional) Setting the Mode in Which VRRP Advertisement Packets Are Sent in a Super-VLAN, (Optional) Setting the Authentication Mode of VRRP Advertisement Packets, (Optional) Enabling Ping to a Virtual IP Address, (Optional) Configuring VRRP Smooth Switching, (Optional) Enabling the Backup in a VRRP Group to Forward Traffic, Configuring a VRRP Group and Binding the VRRP Group to an mVRRP Group, Configuring Association Between VRRP and BFD to Implement a Rapid Active/Standby Switchover, Configuring Association Between VRRP and Peer BFD to Implement a Rapid Active/Standby VRRP Switchover, (Optional) Enabling the Backup to Rapidly Send Gratuitous ARP Packets During an Active/Standby Switchover of a VRRP Group Triggered by the Associated Peer BFD Session, Configuring Association Between VRRP and the Interface Status to Implement an Active/Standby Switchover, Configuring Association Between VRRP and BFD to Monitor the Uplink Status, Configuring Association Between VRRP and NQA to Monitor the Uplink Status, Configuring Association Between VRRP and Routing to Monitor the Uplink Status, Configuring Association Between VRRP and a Card, Configuring Basic Functions of an IPv6 VRRP Group, Setting the Device Priority in a VRRP6 Group, (Optional) Configuring a VRRP6 Preemption Mode, (Optional) Configuring VRRP6 Time Parameters, (Optional) Configuring VRRP6 Advertisement Packet Attributes, (Optional) Configuring VRRP6 Smooth Switching, Configuring a VRRP6 Group and Binding the VRRP6 Group to an mVRRP6 Group, Configuring Association Between VRRP6 and BFD to Implement a Rapid Active/Standby Switchover, Configuring Association Between VRRP6 and the Interface Status to Implement an Active/Standby Switchover, Clearing VRRP Advertisement Packet Statistics, Example for Configuring a VRRP Group in Active/Standby Mode, Example for Configuring a VRRP Group in Load Balancing Mode, Example for Configuring Association Between VRRP and BFD to Implement a Rapid Active/Standby Switchover, Example for Configuring Association Between VRRP and NQA to Monitor the Uplink Status, Example for Configuring Association Between VRRP and Routing to Monitor the Uplink Status, Example for Configuring MSTP + VRRP Network, Example for Configuring VRRP on a Dot1q Termination Sub-interface, Example for Configuring VRRP on a QinQ Termination Sub-interface, Example for Configuring a VRRP6 Group in Active/Standby Mode, Example for Configuring a VRRP6 Group in Load Balancing Mode, Example for Configuring Association Between VRRP6 and BFD to Implement a Rapid Active/Standby Switchover, A Downstream Device Cannot Ping the Virtual IP Address of a VRRP Group. Configure VRRP group 1 on the master, and set the priority of the master to 120 and the. Assign an IP address to each interface and configure a routing protocol to ensure network connectivity. How Are VRRP Heartbeat Packets Sent in a Super-VLAN? Global BFD must be enabled before you configure BFD for OSPF and BFD for PIM. //Commit the BFD session to make the configuration take effect. LLDP IpCisco Huawei shall not bear any responsibility for translation accuracy and it is recommended that you refer to the English document (a link for which has been provided). Multicast source 10.100.1.1 sends multicast data to group 225.0.0.10, and user hosts have joined group 225.0.0.10. The configurations on SwitchB, SwitchC, and SwitchD are similar to the configuration on SwitchA, and are not mentioned here. In V200R003 and earlier versions, VRRP can be configured only on the VLANIF interface. After SwitchA recovers, it becomes the gateway within 20s. //Configure the local discriminator of the BFD session. When the gateway fails, VRRP selects a new gateway to transmit service traffic to ensure reliable communication. NHRP: VRRP config (Cisco) The Virtual Router Redundancy Protocol (VRRP) is an election protocol that dynamically assigns responsibility for one or more virtual routers to the VRRP routers on a LAN, allowing several routers on a multiaccess link to utilize the same virtual IP address. Route Flags: R - relay, D - download to fib, T - to vpn-instance. In Figure 3-180, hosts on a LAN are dual-homed to SwitchA and SwitchB through the switch. For details, see the configuration files. Set the decreased priority to ensure that the priority of the backup is higher than the priority of the master. VRRP virtualizes multiple routing devices into a virtual router without changing the networking, and uses the virtual router IP address as the default gateway address to implement gateway backup. Configuration association between BFD and VRRP. In V200R003 and earlier versions, VRRP can be configured only on the VLANIF interface. Overview of the First Login; Logging In Through a Console . SwitchA is used as an example. Retain the default priority of SwitchA. Association between a VRRP group and the interface status cannot be configured on the device as the IP address owner. Transmit only. VRRP switches services from the master to the backup when VRRP enables hosts on a LAN to make use of redundant routing platforms on that LAN without requiring more than the static configuration of a single default route on the hosts. This implements gateway backup. Internet Engineering Task Force (IETF) X. Liu, Ed. Then, restart the browser. Note: Even the most advanced machine translation cannot match the quality of professional translators. Change the priority of the master to be higher than that of the backup. This implements load balancing. # Configure VRRP group 1 on SwitchA, and set the priority of SwitchA to 120 and the preemption delay to 20s. Therefore, Loopback1 of SwitchD becomes the RP interface. To enable unicast traffic to be loaded balanced among OSPF routes, you are advised to disable STP on 's Layer 2 interfaces connected to the Layer 2 switch. Border Gateway Protocol (BGP) is one of the key protocols to use to achieve Internet connection redundancy. For details, see the configuration files. 1. The configuration roadmap is as follows: # Assign an IP address to each interface. The configuration of SwitchB is similar to the configuration of SwitchA, and is not mentioned here. Secondly, we will create the Secondary VLANs. For details, see the configuration files. Configure a VRRP group between SwitchA and SwitchB. Therefore, SwitchA becomes the master device and SwitchB becomes the backup device of VRRP group 1. Huawei uses machine translation combined with human proofreading to translate this document to different languages in order to help you better understand the content of this document. 0.0 . Router(config-if)# vrrp 10 authentication text stringxyz Router(config-if)# vrrp 10 ip 10.21.8.10 Example: VRRP MIB Trap Cisco Private VLAN Configuration Steps. (Example for IPv4: The backup group ID is 2, and the virtual IP address is 10.10.110.1.) SwitchA is used as an example. Multiple VRRP groups can monitor a BFD session, and a VRRP group can monitor a maximum of eight BFD sessions simultaneously. The host uses SwitchA as the default gateway to connect to the Internet. Step 1: Configure a recursive static route. During the switchover period, service traffic is still sent to the original master, causing user traffic loss. What Are the Precautions for Configuring Multicast BFD? Then, restart the browser. Can an Eth-Trunk Function as the Master or Slave Interface in a Smart Link Group? In V200R005 and later versions, VRRP can be configured on the VLANIF interface and Layer 3 Ethernet interface. SwitchA is used as an example. The display vrrp command outputs on SwitchC and SwitchD are similar to the command outputs on SwitchA and SwitchB. Sx300 Series Switches Typical Configuration Examples. //The device in a VRRP group uses the immediate preemption mode by default. Receive only. As a result, Layer 3 services on the network cannot run normally. Using vrrp4-2-1 as an example, a few things to note about this interface:. An IP SLA Router is capable of generating traffic and reporting on it in real time. Layer 3 features like Open Shortest Path First (OSPF) protocol or Intermediate-System-to-Intermediate System (IS-IS) protocol require LAN_ENTERPRISE_SERVICES_PKG license. The hosts use SwitchA as the default gateway to connect to the Internet. //Associate the VRRP group with the downlink interface. # After 20s, run the display vrrp command on SwitchA and SwitchB. Some functions of the website may be unavailable. Verify the configuration of link aggregation. A VRRP group in load balancing mode is used to implement load balancing. For details about software mappings, visit Hardware Query Tool and search for the desired product model. # Add member interfaces on SwitchA to Eth-Trunk 1. You can see that the priority of SwitchA is higher than that of SwitchB. //Configure the minimum interval for receiving BFD packets. Internet Protocol is connectionless and unreliable protocol. A VRRP group in active/standby mode is used to implement gateway backup. The load balancing mode differs from the active/standby mode in the following ways: Unknown error. In the below configuration examples, we will see Cisco configuration for this swapping. Configuration file of campus egress gateway SwitchA, Configuration file of campus egress gateway SwitchB, Configuration file of core device SwitchC, Configuration file of core device SwitchD. Generally, all hosts on the same network segment have the gateway address as the next hop address for the default route. The display pim bfd session command outputs on SwitchB, SwitchC, and SwitchD are similar to the command output on SwitchA. How Does the Master/Slave Switchover Work in VRRP on the Switch? # Enable OSPF on the campus egress gateway and core devices, add the devices to area 0, and advertise local network segments in area 0. This section provides an example for Huawei S9300 configuring a VRRP group. How to Use Command Lines; Displaying the Command Output; Configuration Examples for the CLI; Logging In to the System for the First Time. Lets check this configuration for a Cisco switch. //A device in a VRRP group uses immediate preemption by default. Typical Configuration for Interoperation Between Switches and Firewalls, Example for Configuring a Layer 2 Switch to Work with a Firewall for Internet Access, Example for Configuring a Layer 3 Switch to Work with a Firewall for Internet Access, Typical Configuration for Interoperation Between Switches and Routers, Example for Configuring a Layer 2 Switch to Work with a Router for Internet Access, Example for Configuring a Layer 3 Switch to Work with a Router for Internet Access, Layer 2 Load-Balancing Hot Standby on the NGFW Modules Installed on a Cluster Switch Where Redirection-based Traffic Diversion Is Implemented, Layer 3 Active/Standby Hot Standby on the NGFW Modules Installed on a Cluster Switch Where Static Route-based Traffic Diversion Is Implemented, Layer 3 Active/Standby Hot Standby on the NGFW Modules Installed on a Cluster Switch Where PBR-based Traffic Diversion Is Implemented, Layer 3 Active/Standby Hot Standby on the NGFW Modules Installed on a Cluster Switch Where VLAN-based Traffic Diversion Is Implemented, Example for Configuring Switch Login Through a Console Port, Example for Configuring Telnet Login (Based on ACL Rules and RADIUS Authentication), Example for Configuring STelnet Login (Based on RADIUS Authentication), Example for Configuring the Device as the Telnet Client to Log In to Another Device, Example for Configuring the Device as the STelnet Client to Log In to Another Device, Example for Configuring Switch Login Through the Web System, Example for Logging In to the Switch to Manage Files, Example for Accessing Files on Other Devices Using TFTP, Example for Accessing Files on Other Devices Using FTP, Example for Accessing Files on Other Devices Using SFTP, Typical Stack Configuration of Fixed Switches, Stack Deployment Method and Recommendations, Example for Setting Up a Stack Using Stack Cards (V200R001 and Later Versions), Example for Setting Up a Stack Using Service Ports (V100R006C05), Example for Setting Up a Stack Using Service Ports (V200R001 to V200R002), Example for Setting Up a Stack Using Service Ports (V200R003 and Later Versions), Example for Establishing a Stack Through Service Port Connections Using Dedicated Stack Cables (V200R011C10 and Later Versions), Typical CSS Configuration of Modular Switches, Example for Setting Up a CSS of Two Member Switches Using CSS Cards, Example for Setting Up a CSS Using Service Ports, Information to Know Before SVF Deployment, Example for Configuring SVF (S9300 as the Parent), Example for Configuring SVF (S12700 as the Parent), Example for Configuring SVF (S6320-EI as the Parent), Example for Configuring a Combo Interface, Example for Configuring the Rate and Duplex Mode of an Ethernet Interface, Example for Switching an Interface Between Layer 2 and Layer 3 Modes, Example for Configuring Static MAC Address Entries, Example for Configuring Blackhole MAC Address Entries, Example for Configuring MAC Address Limiting in a VLAN, Example for Configuring MAC Address Limiting on an Interface, Precautions for Inter-Card Eth-Trunk Deployment, Example for Configuring Link Aggregation in Manual Mode When Switches Are Directly Connected, Example for Configuring Link Aggregation in LACP Mode When Switches Are Directly Connected, Example for Connecting an E-Trunk to a VPLS Network, Example for Configuring an Eth-Trunk to Preferentially Forward Local Traffic in a CSS or Stack, Example for Configuring an Eth-Trunk and Association Between VRRP and the Interface Status, Example for Configuring Interface-based VLAN Assignment, Example for Configuring Interface-based VLAN Assignment (Access Device Used as the Gateway), Example for Configuring Interface-based VLAN Assignment (Aggregation Device Used as the Gateway), Example for Configuring MAC Address-based VLAN Assignment, Example for Configuring IP Subnet-based VLAN Assignment, Example for Directly Connecting a Terminal to a Layer 3 Gateway to Implement Inter-VLAN Communication, Example for Connecting a Terminal to a Layer 3 Gateway Through a Layer 2 Switch, Example for Configuring Communication Between Different Network Segments Through Static Routes, Example for Configuring MUX VLAN to Isolate Users in the Same VLAN, Example for Configuring VLAN ID-based Selective QinQ, Example for Configuring Flow-based Selective QinQ, Example for Configuring a Single RRPP Ring with a Single Instance, Example for Configuring Tangent RRPP Rings, Example for Configuring RRPP Snooping on a VPLS Network, Example for Configuring SEP and MSTP on a Network, Example for Configuring SEP and RRPP on a Network, Example for Configuring LDT to Detect Loops on the Downstream Network, Example for Configuring LDT to Detect Loops on the Local Network, Example for Configuring LBDT to Detect Loopbacks on an Interface, Example for Configuring LBDT to Detect Loops on the Downstream Network, Example for Configuring LBDT to Detect Loops on the Local Network, Example for Configuring the Device as a DHCP Server (Based on the Interface Address Pool), Example for Configuring a Device as the DHCP Server (Based on the Global Address Pool), Example for Configuring a DHCP Server to Allocate Different Network Parameters from the Global Address Pool to Dynamic and Static Clients, Example for Configuring the Device as a DHCP Relay (on the Same Network), Example for Configuring the Device as a DHCP Relay (Across a GRE Tunnel), Example for Configuring DHCP Servers Based on the Global Address Pool on the Same Network Segment in VRRP Networking, Example for Connecting to the CDN Server to the IPTV Network Through Two Switches That Form a Dual-Node Cluster on the Ring Network, Example for Connecting the CDN Server to a Switch Stack System That Connects to PE Devices of the IPTV Network Through Eth-Trunk, Example for Configuring Static Routes for Interworking Between Different Network Segments, Example for Configuring Static Routes for Load Balancing, Example for Configuring Static Routes for Link Backup, Example for Configuring NQA for IPv4 Static Routes, Example for Configuring EFM for IPv4 Static Routes, Example for Configuring Basic OSPF Functions, Example for Configuring an OSPF Stub Area, Example for Configuring OSPF Load Balancing, Example for Configuring Traffic Policies to Implement Policy-based Routing (Redirection to Different Next Hops), Example for Configuring Multicast VPN Access Through MCE Devices, Example for Configuring Routing Policies to Control Mutual Access Between L3VPN Users, Example for Connecting QinQ Termination Sub-interfaces to a VLL Network, Example for Deploying BGP/MPLS IP VPN and VPLS on One ISP Network, Example for Associating the BFD Session Status with the Interface Status, Example for Configuring a VRRP Group in Active/Standby Mode, Example for Configuring a VRRP Group in Load Balancing Mode, Example for Configuring Association Between VRRP and BFD to Implement a Rapid Active/Standby Switchover, Example for Configuring VRRP to Ensure Reliable Multicast Data Transmission, Typical User Access and Authentication Configuration, Notice to Be Taken When the Device Connects to Non-Huawei RADIUS Servers, Example for Configuring Authentication for Telnet Login Users (AAA Local Authentication), Example for Configuring Authentication for Telnet Login Users (RADIUS Authentication), Example for Configuring Authentication for Telnet Login Users (Using the Secure ACS as a RADIUS Authentication Server), Example for Configuring Authentication for Telnet Login Users (HWTACACS and Local Authentication), Example for Configuring Default Domain-based User Management, Typical NAC Configuration (Unified Mode) (the Agile Controller-Campus as the Authentication Server) (V200R009C00 and Later Versions), Configuring Portal Authentication for Access Users on Huawei Agile Controller-Campus (Authentication Point on Core Switch), Configuring Portal Authentication for Access Users on Huawei Agile Controller-Campus (Authentication Point on Aggregation Switch), Configuring 802.1X and MAC Address Authentication for Access Users on Huawei Agile Controller-Campus, Delivering VLANs or ACLs to Successfully Authenticated Users on Huawei Agile Controller-Campus, Typical NAC Configuration (Unified Mode) (V200R009C00 and Later Versions), Example for Configuring 802.1X Authentication to Control User Access, Example for Configuring MAC Address Authentication to Control User Access, Example for Configuring Portal Authentication to Control User Access, Typical NAC Configuration (Unified Mode) (the Agile Controller-Campus as the Authentication Server) (V200R005C00 to V200R008C00), Example for Configuring Portal Authentication to Control User Access to the Enterprise Network (Authentication Point on Core Switch), Example for Configuring Portal Authentication to Control User Access to the Enterprise Network (Authentication Point on Aggregation Switch), Example for Configuring 802.1X and MAC Address Authentication to Control User Access to the Enterprise Network (Authentication Point on Access Switch), Example for Configuring 802.1X and MAC Address Authentication to Control User Access to the Enterprise Network (Authentication Point on Aggregation Switch), Typical NAC Configuration (Unified Mode) (V200R005C00 to V200R008C00), Example for Configuring Multiple Authentication Modes to Control User Access, Example for Using an ACL to Restrict FTP Access Rights, Example for Using ACLs to Control Access to the Specified Server in the Specified Time Range, Example for Using an ACL to Block Network Access of the Specified Users, Example for Using Reflective ACL to Implement Unidirectional Access Control, Example for Allowing Certain Users to Access the Internet in the Specified Time Range, Example for Using ACLs to Restrict Mutual Access Between Network Segments, Example for Using an ACL to Prevent Internal Hosts from Accessing the Internet, Example for Using an ACL to Prevent External Hosts from Accessing Internal Servers, Example for Applying ACLs to SNMP to Filter NMSs, Example for Configuring ARP Security Functions, Example for Configuring Defense Against ARP MITM Attacks, Example for Configuring DHCP Snooping to Prevent Bogus DHCP Server Attacks, Example for Configuring IPSG to Prevent Hosts with Static IP Addresses from Changing Their Own IP Addresses, Example for Configuring IPSG to Prevent Hosts with Dynamic IP Addresses from Changing Their Own IP Addresses, Example for Configuring IPSG Based on the Static Binding Table to Prevent Unauthorized Hosts from Accessing the Intranet, Example for Configuring Priority Re-marking and Queue Scheduling, Example for Configuring Interface-based Rate Limiting on a Fixed Switch, Example for Configuring Interface-based Rate Limiting on a Modular Switch, Example for Configuring a Traffic Policy to Implement Rate Limiting, Example for Configuring Rate Limiting in a Specified Time Range, Example for Configuring Rate Limiting Based on VLAN IDs, Example for Configuring Traffic Shaping (Using DiffServ Domain-Based Priority Mapping), Example for Configuring Traffic Shaping (Based on 802.1p Priority Trust), Example for Configuring Congestion Management (Schedule Template Mode), Example for Configuring Congestion Avoidance and Congestion Management (Using WRR Scheduling and an SRED Policy), Example for Configuring Congestion Avoidance and Congestion Management (Using PQ+WDRR Scheduling and a WRED Profile), Example for Configuring a Traffic Policy to Prevent Some Users from Accessing the Internet at the Specified Time, Example for Configuring a Traffic Policy to Collect Statistics on Ping Packets, Example for Configuring a Traffic Policy to Implement Traffic Statistics, Example for Limiting Access Based on the Flow ID, Example for Configuring a Traffic Policy to Limit Access Between Network Segments, Typical Network Management and Monitoring Configuration, Example for Configuring a Device to Communicate with the NMS Using SNMPv1, Example for Configuring a Device to Communicate with the NMS Using SNMPv2c, Example for Configuring a Device to Communicate with the NMS Using SNMPv3, Example for Configuring Original Flow Statistics Exporting, Example for Configuring Aggregation Flow Statistics Exporting, Example for Configuring Flexible Flow Statistics Exporting, Example for Configuring Local Port Mirroring (1:1 Mirroring), Example for Configuring Local 1:N Port Mirroring (Observing Ports Are Configured One by One), Example for Configuring Local 1:N Port Mirroring (Observing Ports Are Configured in a Group), Example for Configuring Local Port Mirroring (N:1 Mirroring), Example for Configuring Local Port Mirroring (M:N Mirroring), Example for Configuring Layer 2 Remote Port Mirroring, Example for Configuring MQC-based Local Traffic Mirroring, Example for Configuring ACL-based Local Traffic Mirroring, Example for Configuring MQC-based Remote Traffic Mirroring, Example for Configuring ACL-based Remote Traffic Mirroring, Example for Configuring Local VLAN Mirroring, Example for Configuring Remote VLAN Mirroring, Example for Configuring Local MAC Address Mirroring, Example for Configuring Remote MAC Address Mirroring, Example for Configuring iPCA to Implement End-to-End Packet Loss Measurement, Example for Configuring iPCA to Implement Regional Network Packet Loss Measurement, Example for Configuring iPCA to Implement Hop-by-Hop Packet Loss Measurement, Example for Configuring iPCA to Implement Packet Loss Measurement on a Direct Link, Example for Configuring iPCA to Implement Packet Loss Measurement on a Device, Example for Configuring Free Mobility When Physical Locations of Users Change.
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