XGS-5240-Series User Manual
Table Of Contents
- Chapter 1 INTRODUCTION
- Chapter 2 INSTALLATION
- Chapter 3 witch Management
- Chapter 4 Basic Switch Configuration
- Chapter 5 File System Operations
- Chapter 6 Cluster Configuration
- Chapter 7 USB Function Configuration
- Chapter 8 Device Management
- Chapter 9 Port Configuration
- Chapter 10 Port Isolation Function Configuration
- Chapter 11 Port Loopback Detection Function Configuration
- Chapter 12 ULDP Function Configuration
- Chapter 13 LLDP Function Operation Configuration
- Chapter 14 Port Channel Configuration
- Chapter 15 MTU Configuration
- Chapter 16 bpdu-tunnel-protocol Configuration
- Chapter 17 DDM Configuration
- Chapter 18 EFM OAM Configuration
- Chapter 19 LLDP-MED
- Chapter 20 PORT SECURITY
- Chapter 21 QSFP+ Port Split and Combination Configuration
- Chapter 22 VLAN Configuration
- Chapter 23 MAC Table Configuration
- Chapter 24 MSTP Configuration
- Chapter 25 QoS Configuration
- Chapter 26 PBR Configuration
- Chapter 27 IPv6 PBR Configuration
- Chapter 28 Flow-based Redirection
- Chapter 29 Egress QoS Configuration
- Chapter 30 Flexible QinQ Configuration
- Chapter 31 Layer 3 Management Configuration
- Chapter 32 ARP Scanning Prevention Function Configuration
- Chapter 33 Prevent ARP, ND Spoofing Configuration
- Chapter 34 ARP GUARD Configuration
- Chapter 35 Gratuitous ARP Configuration
- Chapter 36 DHCP Configuration
- Chapter 37 DHCPv6 Configuration
- Chapter 38 DHCP option 82 Configuration
- Chapter 39 DHCPv6 option37, 38
- Chapter 40 DHCP Snooping Configuration
- Chapter 41 DHCP option 60 and option 43
- Chapter 42 IPv4 Multicast Protocol
- Chapter 43 IPv6 Multicast Protocol
- Chapter 44 Multicast VLAN
- Chapter 45 ACL Configuration
- Chapter 46 Self-defined ACL Configuration
- Chapter 47 802.1x Configuration
- 47.1 Introduction to 802.1x
- 47.2 802.1x Configuration Task List
- 47.3 802.1x Application Example
- 47.4 802.1x Troubleshooting
- Chapter 48 The Number Limitation Function of MAC and IP in Port, VLAN Configuration
- 48.1 Introduction to the Number Limitation Function of MAC and IP in Port, VLAN
- 48.2 The Number Limitation Function of MAC and IP in Port, VLAN Configuration Task Sequence
- 48.3 The Number Limitation Function of MAC and IP in Port, VLAN Typical Examples
- 48.4 The Number Limitation Function of MAC and IP in Port, VLAN Troubleshooting Help
- Chapter 49 Operational Configuration of AM Function
- Chapter 50 Security Feature Configuration
- 50.1 Introduction to Security Feature
- 50.2 Security Feature Configuration
- 50.2.1 Prevent IP Spoofing Function Configuration Task Sequence
- 50.2.2 Prevent TCP Unauthorized Label Attack Function Configuration Task Sequence
- 50.2.3 Anti Port Cheat Function Configuration Task Sequence
- 50.2.4 Prevent TCP Fragment Attack Function Configuration Task Sequence
- 50.2.5 Prevent ICMP Fragment Attack Function Configuration Task Sequence
- 50.3 Security Feature Example
- Chapter 51 TACACS+ Configuration
- Chapter 52 RADIUS Configuration
- Chapter 53 SSL Configuration
- Chapter 54 IPv6 Security RA Configuration
- Chapter 55 VLAN-ACL Configuration
- Chapter 56 MAB Configuration
- Chapter 57 PPPoE Intermediate Agent Configuration
- Chapter 58 SAVI Configuration
- Chapter 59 Captive Portal Authentication
- 59.1 Captive Portal Authentication Configuration
- 59.2 Accounting Function Configuration
- 59.3 Free-resource Configuration
- 59.4 Authentication White-list Configuration
- 59.5 Automatic Page Pushing after Successful Authentication (it is not supported currently)
- 59.6 http-redirect-filter
- 59.7 Portal Non-perception
- 59.8 Portal Escaping
- Chapter 60 VRRP Configuration
- Chapter 61 IPv6 VRRPv3 Configuration
- Chapter 62 MRPP Configuration
- Chapter 63 ULPP Configuration
- Chapter 64 ULSM Configuration
- Chapter 65 Mirror Configuration
- Chapter 66 RSPAN Configuration
- Chapter 67 SNTP Configuration
- Chapter 68 NTP Function Configuration
- Chapter 69 DNSv4/v6 Configuration
- Chapter 70 Summer Time Configuration
- Chapter 71 Monitor and Debug
- Chapter 72 Reload Switch after Specified Time
- Chapter 73 Debugging and Diagnosis for Packets Received and Sent by CPU
- Chapter 74 VSF
- Chapter 75 SWITCH OPERATION
- Chapter 76 TROUBLESHOOTING
- Chapter 77 APPENDIX A
- Chapter 78 GLOSSARY
Configuration Guide of XGS-5240-Series
74-5
eed to continous the reconstringency of L2/L3 can restart the virtual switch recover in short time. T
he active mode must be used for port group.
3. VSF can expand the system bandwidth capacity
In the vsf switch can activate all the L2 bandwidth, can carry on the equilibrium of load on the
multiple members of VSF when expanding the bandwidth.
74.1.2 Basic Concept
(1) Role
Each of the facilities in the VSF is called member facility. According to the function of each mem
ber facility, will divide into 2 different roles:
Master: Responds for manage entire VSF
Standby Master: Is the standby member of VSF, as the Master backup facility for operation. Wh
en the Master is out of order, the systems will handover to Standby Master automatically to perform
the original job of Master.
Slave: The member facilities that are other than Master and Standby Master in VSF.
Master, Standby Master and Slave are produced by election. For entire VSF, it can only have on
e Master, one Standby Master, other members should be Slave.
(2) VSF port
It is a logic port which is particular use for VSF. It divides into vsf-port1 and vsf-port2, need to c
olligate with the VSF physical port and then become efficitive.
(3) VSF physical port
It is the facility that is used for physical connection port for VSF. VSF physical port can be VSF
specific port, Ethernet port or light port (different equipment and the model will using different port, pl
ease equipt it according to the virtual situtation). Usually, Ethernet port and light port respond for tr
ansmitting operation message. After they colligate with the VSF port, they will become the VSF physi
cal port. They will use for transmitting the message within the members. The message including VSF
related negotiation message and the operation message that needs to cross over different members.
(4) Merge
Two different VSF operation separately, throughout the physical connection and configuration, it wi
ll become one VSF. This process is called merge.
Fig 1-4 Merging of VSF
(5) Split
One VSF is formed. Due to the VSF link is out of order, it will cause the facilities that are borde
r upon cannot connect together physically. Therefore, one stracking will divide into two stracking. This
process is called split.