SGS-6341-Series User Manual
Table Of Contents
- Chapter 1 INTRODUCTION
- Chapter 2 INSTALLATION
- Chapter 3 Switch Management
- Chapter 4 Basic Switch Configuration
- Chapter 5 File System Operations
- Chapter 6 Cluster Configuration
- Chapter 7 Port Configuration
- Chapter 8 Port Isolation Function Configuration
- Chapter 9 Port Loopback Detection Function Configuration
- Chapter 10 ULDP Function Configuration
- Chapter 11 LLDP Function Operation Configuration
- Chapter 12 Port Channel Configuration
- Chapter 13 MTU Configuration
- Chapter 14 EFM OAM Configuration
- Chapter 15 PORT SECURITY
- Chapter 16 DDM Configuration
- Chapter 17 LLDP-MED
- Chapter 18 bpdu-tunnel Configuration
- Chapter 19 EEE Energy-saving Configuration
- Chapter 20 VLAN Configuration
- Chapter 21 MAC Table Configuration
- Chapter 22 MSTP Configuration
- Chapter 23 QoS Configuration
- Chapter 24 Flow-based Redirection
- Chapter 25 Flexible Q-in-Q Configuration
- Chapter 26 Layer 3 Management Configuration
- Chapter 27 ARP Scanning Prevention Function Configuration
- Chapter 28 Prevent ARP Spoofing Configuration
- Chapter 29 ARP GUARD Configuration
- Chapter 30 Gratuitous ARP Configuration
- Chapter 31 DHCP Configuration
- Chapter 32 DHCPv6 Configuration
- Chapter 33 DHCP Option 82 Configuration
- Chapter 34 DHCP Option 60 and option 43
- Chapter 35 DHCPv6 Options 37, 38
- Chapter 36 DHCP Snooping Configuration
- Chapter 37 DHCP Snooping Option 82 Configuration
- Chapter 38 IPv4 Multicast Protocol
- Chapter 39 IPv6 Multicast Protocol
- Chapter 40 Multicast VLAN
- Chapter 41 ACL Configuration
- Chapter 42 802.1x Configuration
- 42.1 Introduction to 802.1x
- 42.2 802.1x Configuration Task List
- 42.3 802.1x Application Example
- 42.4 802.1x Troubleshooting
- Chapter 43 The Number Limitation Function of MAC and IP in Port, VLAN Configuration
- Chapter 44 Operational Configuration of AM Function
- Chapter 45 Security Feature Configuration
- 45.1 Introduction to Security Feature
- 45.2 Security Feature Configuration
- 45.2.1 Prevent IP Spoofing Function Configuration Task Sequence
- 45.2.2 Prevent TCP Unauthorized Label Attack Function Configuration Task Sequence
- 45.2.3 Anti Port Cheat Function Configuration Task Sequence
- 45.2.4 Prevent TCP Fragment Attack Function Configuration Task Sequence
- 45.2.5 Prevent ICMP Fragment Attack Function Configuration Task Sequence
- 45.3 Security Feature Example
- Chapter 46 TACACS+ Configuration
- Chapter 47 RADIUS Configuration
- Chapter 48 SSL Configuration
- Chapter 49 IPv6 Security RA Configuration
- Chapter 50 MAB Configuration
- Chapter 51 PPPoE Intermediate Agent Configuration
- Chapter 52 Web Portal Configuration
- Chapter 53 VLAN-ACL Configuration
- Chapter 54 SAVI Configuration
- Chapter 55 MRPP Configuration
- Chapter 56 ULPP Configuration
- Chapter 57 ULSM Configuration
- Chapter 58 Mirror Configuration
- Chapter 59 sFlow Configuration
- Chapter 60 RSPAN Configuration
- Chapter 61 ERSPAN
- Chapter 62 SNTP Configuration
- Chapter 63 NTP Function Configuration
- Chapter 64 Summer Time Configuration
- Chapter 65 DNSv4/v6 Configuration
- Chapter 66 Monitor and Debug
- Chapter 67 Reload Switch after Specified Time
- Chapter 68 Debugging and Diagnosis for Packets Received and Sent by CPU
- Chapter 69 Dying Gasp Configuration
- Chapter 70 PoE Configuration
60-38
Chapter 60 RSPAN Configuration
60.1 Introduction to RSPAN
Port mirroring refers to the duplication of data frames sent/received on a port to another port. The duplicated
port is referred to as mirror source port and the duplicating port is referred to as mirror destination port. It is
more convenience for network administrator to monitor and manage the network and diagnostic after the
mirroring function achieved. But it only used for such instance that the mirror source port and the mirror
destination ports are located in the same switch.
RSPAN (remote switched port analyzer) refers to remote port mirroring. It eliminates the limitation that the
source port and the destination port must be located on the same switch. This feature makes it possible for
the source port and the destination port to be located on different devices in the network, and facilitates the
network administrator to manage remote switches. It can’t forward traffic flows on remote mirror VLAN.
There are three types of switches with the RSPAN enabled:
1. Source switch: The switch to which the monitored port belongs. The source switch copies the mirrored
traffic flows to the Remote VLAN, and then through Layer 2 forwarding, the mirrored flows are sent to
an intermediate switch or destination switch.
2. Intermediate switch: Switches between the source switch and destination switch on the network.
Intermediate switch forwards mirrored flows to the next intermediate switch or the destination switch.
Circumstances can occur where no intermediate switch is present, if a direct connection exists
between the source and destination switches.
3. Destination switch: The switch to which the destination port for remote mirroring belongs. It forwards
mirrored flows it received from the Remote VLAN to the monitoring device through the destination
port.
When configuring the RSPAN mirroring of the source switch, reflector port mode or destination mirror port
mode can be selected. The destination switch will redirect all the data frames in the RSPAN VLAN to the
RSPAN destination port. For RSPAN mirroring, normal mode and advanced mode can be chosen, normal is
introduced by default and fit the normal user. The advanced mode fit the advanced user.
1. Advanced mode: To redirect data frames in RSPAN VLAN to the RSPAN destination port, the
intermediary and destination devices should support the redirection of flow.
2. Normal mode: To configure the RSPAN destination port in the RSPAN VLAN. Thus, datagrams in the
RSPAN VLAN will be broadcasted to the destination port. In this mode, the destination port should be
in RSPAN VLAN, and the source port should not be configured for broadcasting storm control.
TRUNK ports should be configured carefully in order not to forward RSPAN datagrams to external
networks. The normal mode has the benefit of easy configuration, and reduced system resources.