Table of Contents. 1 Introduction 1-1 Related Manuals 1-1 Volume Introduction 1-1

Table of Contents 1 Introduction 1-1 Related Manuals 1-1 Volume Introduction 1-1 2 Description 2-1 Overview 2-1 Index 2-1 Description 2-2 Access Volume 2-3 IP Services Volume 2-4 IP Routing Volume 2-6 MPLS&VPN Volume 2-8 QoS Volume 2-9 Security Volume 2-9 System Volume 2-11 IP Multicast Volume 2-14 OAA Volume 2-16 i

1 Introduction This is applicable to H3C SR6602, SR6604, SR6608 and SR6616 routers, where SR6602 is a centralized device, SR6604, SR6608 and SR6616 are distributed devices. For the commands that are different for centralized and distributed devices, this introduces them respectively. The configurations in this take SR6602 as an example. Related Manuals For the installation, startup and configuration, software maintenance, hardware maintenance, functions of interface card and interface module, cable connection and troubleshooting of the router, refer to H3C SR6602 Router Installation Manual, H3C SR6604/6608 Router Installation Manual and H3C SR6616 Router Installation Manual. For all cable pinouts available with SR6600 routers, refer to LMR Series Routers Cable Manual. You can log in to http://www.h3c.com to get product documentation of the newest version in the following way: On the homepage of H3C at http://www.h3c.com, select Technical Support & Document > Technical Documents from the navigation menu at the top. Then select a product for its documents. Volume Introduction Software features on the H3C SR6600 routers are introduced in ten volumes as the following: Access Volume: of interfaces and link layer protocols supported on the router. IP Services Volume: of IP-related features such as IP address, ARP, DNS, DHCP, IP performance, IP unicast routing, ACL, and IPv6. IP Routing Volume: of routing protocols such as static route, RIP, RIPng, OSPF, OSPFv3, IS-IS, BGP, BGP4+ and routing policy. MPLS&VPN Volume: of MPLS and VPN related protocols such as MPLS, MPLS TE, GRE, MPLS L3VPN, and MPLS L2VPN. QoS Volume: of QoS related protocols and features supported on the router, such as traffic classification, policing, and shaping, QoS policy, congestion management, congestion avoidance, MPLS QoS and Frame Relay QoS. Security Volume: of security protocols such as AAA, user management, firewall, NAT, IPsec, IKE, RADIUS, and HWTACACS. System Volume: of system-related protocols and features such as basic system configuration, user login, file system management, system maintenance, NTP, SNMP, RMON, and VRRP. 1-1

IP Multicast Volume: of IP multicast-related protocols such as IGMP, PIM, MSDP, and multicast VPN. OAA Volume: of OAA-related protocols such as ACFP and OAP module. 1-2

2 Description Overview H3C SR6600 Routers include: SR6602, SR6604, SR6608 and SR6616. SR6602 are centralized devices which can be used as distribution and access devices for service gateways with high performance and commercial business networks, SR6604, SR6608 and SR6616 are distributed devices which can be used as core, distribution and access devices for large networks, and core devices for small to medium-sized enterprise networks. Index Table 2-1 index of SR6600 routers Functional module CPOS Interface POS Interface Ethernet Interface WAN Interface Frame Relay HDLC PPP Logical Interface Access Volume MODEM Management VLAN Termination ATM Interface ATM E-CPOS Interface Port Mirroring ARP DHCP DNS IP Addressing IP Performance Optimization IP Unicast Policy Routing URPF IPv6 Basics IP Services Volume Adjacency Table Flow Classification IP Virtual Fragment Reassembly Dual Stack Tunneling UDP Helper DHCPv6 IPv6 Unicast Policy Routing NAT-PT IP Routing Overview BGP IS-IS OSPF IP Routing Volume RIP Route Policy Static Routing IPv6 BGP IPv6 IS-IS OSPFv3 RIPng IPv6 Static Routing BFD MPLS&VPN Volume MPLS Basics MPLS TE MPLS L2VPN MPLS L3VPN GRE L2TP QoS Volume QoS FR QoS 2-1

Functional module AAA Firewall ALG PKI Security Volume Session Management NAT ACL IPsec SSH2.0 Portal Public Key Web Filtering Connection Limit RSH GR VRRP HA Device Management NQA NetStream NTP RMON System Volume SNMP File System Management Basic System System Maintaining and Debugging Information Center User Interface Track IPv6 NetStream Sampler Hotfix Flow Log User Profile Multicast Overview Multicast Routing and Forwarding IGMP MSDP IP Multicast Volume PIM Multicast VPN MBGP MLD IPv6 PIM IPv6 MBGP IPv6 Multicast Routing and Forwarding OAA Volume OAP Module ACFP ACSEI Description In the PDF version of this, you can click the hyperlink in the to access the operation and command s you are interested in. Press <Alt + > to return to the Description page. 2-2

Access Volume Table 2-2 s in access volume CPOS Interface POS Interface Ethernet Interface WAN Interface Frame Relay HDLC PPP Logical Interface Modem Management ATM Interface ATM E-CPOS Interface VLAN Termination CPOS Interface CPOS Interface POS Interface POS Interface Ethernet Interface Ethernet Interface WAN Interface WAN Interface Frame Relay Frame Relay HDLC HDLC PPP and MP PPP and MP Logical Interface Logical Interface Modem Management Modem Management ATM Interface ATM Interface ATM ATM E-CPOS Interface E-CPOS Interface VLAN Termination VLAN Termination Introduction to CPOS interface CPOS interface configuration E1 channel configuration T1 channel configuration E3 channel configuration T3 channel configuration POS configuration and introduction Combo and Layer 3 Ethernet interface introduction Introduction to WAN interfaces such as synchronous serial interface, AUX, and CE1 FR DCE/DTE configuration Multilink FR configuration HDLC configuration PPP configuration MP configuration PPP link efficiency mechanism configuration PPPoE configuration Loopback interface configuration Null interface configuration Sub-interface configuration MP-group interface configuration MFR interface configuration VT and VA interface configuration Modem management configuration Introduction to interfaces such ATM OC-3c/STM-1 interface ATM interface, ATM subinterface, PVC and VP policing configuration Overview of IPoA, IPoEoA, PPPoA and PPPoEoA applications Introduction to E-CPOS interface E-CPOS interface configuration E-CPOS interface configuration example Introduction to VLAN termination Configuring TPID for VLAN packets Enabling VLAN-termination-enabled subinterfaces to transmit broadcast/multicast packets Configuring Dot1q termination 2-3

Port Mirroring Return to Index. Port Mirroring Port Mirroring Configuring Local Port Mirroring Configuring Layer 2 Remote Port Mirroring Traffic Mirroring IP Services Volume Table 2-3 s in IP services volume ARP DHCP DNS IP Addressing IP Performance Optimization IP Unicast Policy Routing URPF ARP ARP DHCP DHCP DNS DNS IP Addressing IP Addressing IP Performance Optimization IP Performance Optimization IP Unicast Policy Routing IP Unicast Policy Routing URPF URPF Address resolution protocol, mainly used for resolution from IP address to Ethernet MAC address. ARP configuration Gratuitous ARP configuration Proxy ARP configuration Dynamic host configuration protocol, implements dynamic configuration for information such as IP address. DHCP server configuration DHCP relay configuration DHCP client configuration DNS is a distributed database that applies to TCP/IP application programs. It functions to resolve between hostnames and IP addresses. Static DNS configuration Dynamic DNS configuration IP address configuration Assigning an IP address to an interface In a specific network, IP parameters need to be adjusted to optimize the network performance. Enabling receiving and forwarding directed broadcasts Configuring TCP timer, buffer size, packet size and ICMP error packets Configuring the maximum TCP segment size (MSS) of an interface Configuring to send ICMP error packets Policy routing, selects routes according to policies defined by the user. Policy routing configuration Unicast Reverse Path Forwarding (URPF) protects a network against source address spoofing attacks. Configuring URPF 2-4

IPv6 Basics Adjacency Table Flow Classification IP Virtual Fragment Reassembly Dual Stack Tunneling UDP Helper IPv6 Basics IPv6 Basics Adjacency Table Adjacency Table Flow Classification Flow Classification IP Virtual Fragment Reassembly IP Virtual Fragment Reassembly Dual Stack Tunneling Tunneling UDP Helper UDP Helper Internet protocol version 6 (IPv6) was designed by the Internet Engineering Task Force (IETF) as the successor to Internet protocol version 4 (IPv4). Configuring basic IPv6 functions IPv6 NDP configuration PMTU discovery configuration TCP6 configuration IPv6 FIB forwarding configuration Configuring the maximum ICMPv6 error packets sent in an interval IPv6 DNS configuration An adjacency table manages the information on the neighbors that are both connected and active. Flow classification organizes packets with different characteristics into different classes using certain match criteria. It is the basis for providing differentiated services. To prevent each service module (such as IPsec, NAT and firewall) from processing packet fragments that do not arrive in order, you can enable the virtual fragment reassembly feature, which can virtually reassemble the fragments of a datagram through fragment check, sequencing and caching, ensuring fragments arriving at each service module is in order. A network node that supports both IPv4 and IPv6 is called a dual stack node. A dual stack node configured with an IPv4 address and an IPv6 address can have both IPv4 and IPv6 packets transmitted. Dual stack configuration Tunneling is an encapsulation technology, which utilizes one network protocol to encapsulate packets of another network protocol and transfer them over the network. Tunneling refers to the whole process from data encapsulation to data transfer to data de-encapsulation. IPv6 tunnel configuration Automatic IPv4-compatible IPv6 tunnel configuration 6to4 tunnel configuration ISATAP tunnel configuration IPv4 in IPv4 tunnel configuration IPv6 in IPv6 tunnel configuration IPv4 in IPv6 tunnel configuration 6PE configuration UDP Helper functions as a relay agent that converts UDP broadcast packets into unicast packets and forwards them to a specified destination server. Introduction to UDP Helper UDP Helper configuration 2-5

DHCPv6 IPv6 Unicast Policy Routing NAT-PT Return to Index. DHCPv6 DHCPv6 IPv6 Unicast Policy Routing IPv6 Unicast Policy Routing NAT-PT NAT-PT The Dynamic Host Protocol for IPv6 (DHCPv6) was designed based on IPv6 addressing scheme and is used for assigning IPv6 addresses and other configuration parameters to hosts. Typical DHCPv6 network application Operation of DHCPv6 Configuring the DHCPv6 relay agent Policy routing, also known as policy based routing (PBR), is a routing mechanism based on the user-defined policies. Introduction to IPv6 unicast policy routing Configuring IPv6 unicast policy routing Network Address Translation Protocol Translation (NAT-PT) was introduced to realize translation between IPv4 and IPv6 addresses. NAT-PT mechanism Configuring NAT-PT IP Routing Volume Table 2-4 s in IP routing volume IP Routing Overview BGP IS-IS OSPF RIP IP Routing Overview IP Routing Table BGP BGP IS-IS IS-IS OSPF OSPF RIP RIP IP routing overview IP routing overview IP routing and routing table Routing through a routing table A dynamic inter-as route discovery protocol Configuring BGP basic functions Configuring BGP routing attributes Configuring a large-scale BGP network An interior gateway protocol (IGP) used within an Autonomous System. It adopts the Shortest Path First (SPF) algorithm for route calculation. Configuring ISIS basic functions Configuring ISIS routing information control An interior gateway protocol based on link state Configuring OSPF basic functions Configuring OSPF area parameters Configuring OSPF network types Configuring OSPF routing information management A simple Interior Gateway Protocol mainly used in small-sized networks Configuring RIP basic functions Configuring RIP advanced functions 2-6

Route Policy Static Routing IPv6 BGP IPv6 IS-IS OSPFv3 RIPng IPv6 Static Routing BFD Return to Index. Route Policy Route Policy Static Routing Static Routing IPv6 BGP IPv6 BGP IPv6 IS-IS IPv6 IS-IS OSPFv3 OSPFv3 RIPng RIPng IPv6 Static Routing IPv6 Static Routing BFD BFD A route policy is used to change the route that network traffic passes. Defining filtering lists Configuring a route policy A special route that is ly configured by the network administrator. The proper configuration and usage of static routes can improve a network s performance and ensure bandwidth for important network applications. Configuring a static route Application BGP4+ puts IPv6 network layer information into the attributes of Network Layer Reachable Information (NLRI) and NEXT_HOP. Configuring BGP4+ basic functions Controlling route distribution and reception Configuring BGP4+ route attributes Supports multiple network protocols, including IPv6 and supports two Type-Length-Values (TLVs) and a new Network Layer Protocol Identifier (NLPID) Configuring IPv6-IS-IS basic functions Configuring IPv6-IS-IS routing information control OSPF protocol supporting IPv6 Configuring OSPFv3 basic functions Configuring OSPFv3 area parameters Configuring OSPFv3 routing information management An extension of RIP-2 for IPv4 Configuring RIPng basic functions Configuring RIPng advanced functions Special routes that are ly configured by network administrators work well in simple networks. Configuring IPv6 static routes Bidirectional forwarding detection (BFD) provides a single mechanism to quickly detect and monitor the connectivity of links in networks. BFD basic functions configuration Protocol-based BFD configuration 2-7

MPLS&VPN Volume Table 2-5 s in MPLS&VPN volume MPLS Basics Configuratio n MPLS TE MPLS L2VPN MPLS L3VPN GRE MPLS Basics MPLS Basics MPLS TE MPLS TE MPLS L2VPN MPLS L2VPN MPLS L3VPN MPLS L3VPN GRE GRE MPLS configuration basics LDP overview Configuring MPLS basic capability Configuring PHP Configuring a static LSP Configuring MPLS LDP Configuring LDP instances Configuring MPLS TTL processing MPLS TE overview Configuring MPLS TE basic capabilities Creating MPLS TE tunnel over static CR-LSP Configuring MPLS TE tunnel with dynamic signaling protocol Configuring RSVP-TE advanced features Tuning CR-LSP setup Tuning MPLS TE tunnel setup Configuring traffic forwarding Configuring traffic forwarding tuning parameters Configuring automatic bandwidth adjustment Configuring CR-LSP backup Configuring FRR Supports multiple link-layer protocols to provide L2VPN services based on different media on an MPLS network. Configuring MPLS L2VPN Configuring CCC MPLS L2VPN Configuring SVC MPLS L2VPN Configuring Martini MPLS L2VPN Configuring Kompella MPLS L2VPN MPLS VPN is a L3VPN technology based on PE in a VPN solution for carriers. Configuring VPN instances Configuring basic BGP/MPLS VPN Configuring Inter-Provider VPN Configuring Multi-Role Host Configuring HoVPN Configuring OSPF Sham Link Configuring multi-vpn-instance CE Configuring BGP AS number substitution A protocol designed for performing encapsulation of one network layer protocol over another network layer protocol. GRE overview Configuring a GRE over IPv4 tunnel 2-8

L2TP L2TP L2TP Return to Index. Defines an encapsulation mechanism for transporting multiprotocol packets over Layer 2 (L2) point-to-point links LAC configuration LNS configuration QoS Volume Table 2-6 s in QoS volume QoS FR QoS QoS QoS FR QoS FR QoS Quality of service, evaluates the service performance for those network core requirements during packet transmission process, such as: delay, jitter and packet loss ratio. Peak rate and hardware queues are not supported. Traffic classification, policing, and shaping QoS policy configuration Congestion management Congestion avoidance MPLS QoS configuration On a FR interface, you can use general QoS services to provide the services such as TP, TS, congestion management, and congestion avoidance. Return to Index. Security Volume Table 2-7 s in security volume AAA Firewall AAA AAA Firewall Firewall Authentication, authorization and accounting (AAA) provide a uniform framework used for configuring these three security functions to implement the network security management. AAA configuration RADIUS configuration HWTACACS configuration Firewall can prevent unauthorized or unauthenticated users on the Internet from accessing a protected network while allowing the users on the internal network to access web sites on the Internet and transceive E-mails. Configuring a packet filter firewall Configuring an ASPF 2-9

ALG PKI Session Management NAT ACL IPsec ALG ALG PKI PKI Session Management Session Management NAT NAT ACL ACL IPsec IPsec The application level gateway (ALG) feature is used to process application layer packets. Public key infrastructure (PKI) is a system which uses public key technology and digital certificate to protect system security and authenticate digital certificate users. Generating an RSA pair for PKI Configuring PKI certificate registration Submitting a PKI certificate request Configuring PKI certificate validation Configuring access control policy of certificate attribute The session management feature is a common feature designed to implement session-based services such as network address translation (NAT), application specific packet filter (ASPF), and intrusion protection. Session management configuration Specifying the permanent session ACL Network Address Translation (NAT) is to translate the IP address in IP data packet header into another IP address, which is mainly used to implement private network accessing external network in practice. Configuring EASY IP Configuring static NAT Configuring many-to-many NAT Configuring many-to-one NAPT Configuring internal server Configuring NAT Log Configuring connection limit Access Control List, used to implement flow identification. Flow template is not supported. Configuring effective period of an IPv4 ACL Basic IPv4 ACL configuration Advanced IPv4 ACL configuration Basic IPv6 ACL configuration Advanced IPv6 ACL configuration Layer 3 tunnel encryption protocol defined by IETF, which provides security for IP data packets transmitted on the Internet. Configuring an IPsec proposal Configuring an IPsec policy Configuring an IPsec policy template Applying an IPsec policy Configuring an IKE proposal Configuring an IKE peer Configuring IKE keepalive timer 2-10

SSH2.0 Portal Public Key Web Filtering Connection Limit RSH SSH2.0 SSH2.0 Portal Portal Public Key Public Key Web Filtering Web Filtering Connection Limit Connection Limit RSH RSH Security shell. When routers are connected by remote users across insecure networks, secure shell (SSH) can provide them authentication and security. Configuring the SSH server Configuring the SSH client Configuring the device as an SSH client Portal authentication is also called web authentication and a website implementing portal authentication is called a portal website. Local asymmetric key pair configuration The public key of a peer configuration URL address filtering URL parameter filtering Java blocking ActiveX blocking Filtering rule saving and loading To protect internal network resources (hosts or servers) and better utilize system resources of the device, you can configure connection limit policies to collect statistics on and limit the number of connections. Creating a connection limit policy Configuring the connection limit policy Applying the connection limit policy Remote shell (RSH) allows you to execute the internal and external commands provided by the operating system (OS) on a remote host that runs the RSH daemon. Return to Index. System Volume Table 2-8 s in system volume GR VRRP HA GR Overview VRRP VRRP HA HA Graceful restart. When routing protocol is restarted, the forwarding service will not be terminated. Supports only FIB6, IS-IS and BGP protocol-level GR Virtual routing redundancy protocol, with which the system can still provide highly reliable default links without changing configurations when a device fails. High Availability, used to implement high availability of the system. 2-11

Device Management NQA NetStream NTP RMON SNMP File System Management System Maintenance and Debugging Basic System Device Management Device Management NQA NQA NetStream NetStream NTP NTP RMON RMON SNMP SNMP File System Management File System Management System Maintenance and Debugging System Maintenance and Debugging Basic System Basic Systrem Through the device management function, users can view the current working state of devices, configure operation parameters, and perform daily device maintenance and management. Validity check of Boot ROM is not supported. Configuring device management Network Quality Analyzer (NQA) analyzes network performance, services and service quality with probing tools and provides test results. It is an enhancement and extension of the Ping tool. Perform the following tasks to configure NQA: NQA tests configuration Optional NQA parameters configuration NetStream provides the packet statistics function. Configuring NetStream statistics Configuring NetStream aggregation statistics Configuring attributes of NetStream UDP packets Configuring NetStream statistics aging Network time protocol, used for time synchronization between distributed time server and the client. Configuring the operation modes of NTP Configuring the local clock as a reference source Configuring optional parameters of NTP Configuring access-control rights Configuring NTP authentication Remote monitoring, making SNMP monitor remote network devices more effectively and proactively. RMON configuration Simple network management protocol, a frame using TCP/IP protocol suite to manage devices on the Internet Configuring SNMP basic functions Configuring Trap Manages storage devices and store files in these devices. File system management configuration Configuring FTP Configuring TFTP For the protocols and features supported on the device, the system provides corresponding debugging functions to help users diagnose and locate errors Configuring system debugging Configuring ping and tracert Basic system configuration 2-12

Information Center User Interface Track IPv6 NetStream Sampler Information Center Information Center User Interface User Interface Track Track IPv6 NetStream IPv6 NetStream Sampler Sampler Acting as the system information hub, information center classifies and manages system information. Configuring the information center User interface view is a feature that allows you to manage asynchronous serial interfaces that work in flow mode. By operating under user interface view, you can centralize the management of various configurations. Configuring asynchronous interface attributes Configuring terminal attributes Configuring modem attributes Configuring the auto-execute command Configuring user privilege level Configuring access restriction to VTY user interfaces Configuring supported protocols on VTY user interfaces Configuring redirection function on the asynchronous serial interface Configuring authentication mode at login The Track module is used to implement collaboration between different modules. The collaboration here involves three parts: the application modules, the Track module, and the detection modules. Perform the following tasks to configure track: Track overview of collaboration between the track module and NQA of collaboration between the track module and the application modules IPv6 NetStream provides the packet statistics function. It differentiates IPv6 flows based on destination address, source IP address, destination port number, source port number, protocol number, stream tag, and/or inbound/outbound interface, it collects statistics on a per-flow basis. IPv6 NetStream statistics configuration IPv6 NetStream aggregation configuration of attributes of IPv6 NetStream data IPv6 NetStream flow aging configuration A sampler provides the packet sampling function, that is, a sampler selects a packet from a group of packets with fixed number, and sends it to the service module for processing. 2-13

Hotfix Telnet Hotfix Hotfix Telnet Hotfix is a fast and cost-effective method to repair software defect of a device. Compared with another method, software version upgrade, hotfix can upgrade the software without interrupting the running services of the device, that is, it can repair the software defect of the current version without rebooting the device. This module introduces the configuration and application of Hotfix. This module introduces the command lines used in telnet. Flow Log Flow Log Flow Log User Profile User Profile User Profile Return to Index. Flow logs record the flow information about the users access to the extranet. Flow log versions configuration of the source address for flow log packets Exporting flow logs User profile provides a configuration template to save predefined configurations. Based on different application scenarios, you can configure different items for a user profile. Creating a user profile Configuring a user profile Enabling a user profile IP Multicast Volume Table 2-9 s in IP Multicast Volume Multicast Overview Multicast Routing and Forwarding IGMP Operation and command Multicast Overview Multicast Routing and Forwarding Multicast Routing and Forwarding IGMP IGMP Multicast overview, and Layer 2 multicast is not supported. Multicast models Multicast architecture Multicast packet forwarding mechanism Policies used for filtering the routing information used in the RPF check Multicast policy overview Configuring a multicast policy As a TCP/IP protocol responsible for IP multicast group member management, the Internet Group Management Protocol (IGMP) is used by IP hosts to establish and maintain their multicast group memberships to immediately neighboring multicast routers. Configuring basic functions of IGMP Adjusting IGMP performance 2-14

MSDP PIM Multicast VPN MBGP IPv6 Multicast Routing and Forwarding MLD IPv6 PIM Operation and command MSDP MSDP PIM PIM Multicast VPN Multicast VPN MBGP MBGP IPv6 Multicast Routing and Forwarding IPv6 Multicast Routing and Forwarding MLD MLD IPv6 PIM IPv6 PIM Multicast source discovery protocol (MSDP) is an inter-domain multicast solution developed to address the interconnection of protocol independent multicast sparse mode (PIM-SM) domains. It is used to discover multicast source information in other PIM-SM domains. Configuring basic functions of MSDP Configuring an MSDP peer connection Configuring SA messages related parameters Protocol Independent Multicast (PIM) provides IP multicast forwarding by leveraging static routes or unicast routing tables generated by any unicast routing protocol. Configuring PIM-DM Configuring PIM-SM Configuring PIM-SSM Configuring PIM command features Multicast VPN overview How MD-VPN works Configuring MD-VPN BGP-4 is capable of carrying routing information for IPv4 only. IETF defined multiprotocol BGP extensions to carry routing information for multiple network layer protocols. Configuring MBGP basic functions Configuring MBGP route attributes Tuning and optimizing MBGP networks Configuring a large scale MBGP network Introduction to IPv6 multicast routing and forwarding Enabling IPv6 multicast routing Configuring IPv6 multicast routing and forwarding The Multicast Listener Discovery protocol (MLD) is used by an IPv6 router to discover the presence of multicast listeners on the directly attached subnets. Multicast listeners are nodes wishing to receive IPv6 multicast packets. Configuring basic functions of MLD Adjusting MLD performance Configuring MLD SSM mapping Configuring MLD proxying Protocol Independent Multicast for IPv6 (IPv6 PIM) provides IPv6 multicast forwarding by leveraging static routes or IPv6 unicast routing tables generated by any IPv6 unicast routing protocol. Configuring IPv6 PIM-DM Configuring IPv6 PIM-SM Configuring IPv6 PIM-SSM Configuring IPv6 PIM common features 2-15

IPv6 MBGP Return to Index. Operation and command IPv6 MBGP IPv6 MBGP IPv6 MBGP overview IPv6 MBGP configuration task list Configuring IPv6 MBGP basic functions Controlling route distribution and reception Configuring IPv6 MBGP route attributes Tuning and optimizing IPv6 MBGP networks Configuring a large scale IPv6 MBGP network OAA Volume Table 2-10 s in OAA Volume OAP Module ACFP ACSEI Operation and command OAP Module OAP Module ACFP ACFP ACSEI ACSEI Open Application Platform (OAP) is an open application platform aimed at new services. Users can load software such as security and voice in the operating system as needed. The Application Control Forwarding Protocol (ACFP) is developed based on the OAA architecture. As a private protocol, ACSEI provides a method for exchanging information between ACFP clients and ACFP server. It well supports Application Control Forwarding Protocol (ACFP) collaboration, ensuring valid information interaction between the ACFP clients and the ACFP server, so that the ACFP server and clients can cooperate to run a service. Return to Index. 2-16