88
C
HAPTER
10: VLAN O
VERVIEW
Figure 25
A VLAN implementation
A VLAN can span across multiple switches, or even routers. This enables hosts in a
VLAN to be dispersed in a looser way. That is, hosts in a VLAN can belong to
different physical network segment.
Compared with the traditional Ethernet, VLAN enjoys the following advantages.
■
Broadcasts are confined to VLANs. This decreases bandwidth utilization and
improves network performance.
■
Network security is improved. VLANs cannot communicate with each other
directly. That is, a host in a VLAN cannot access resources in another VLAN
directly, unless routers or Layer 3 switches are used.
■
Network configuration workload for the host is reduced. VLAN can be used to
group specific hosts. When the physical position of a host changes within the
range of the VLAN, you need not change its network configuration.
VLAN Principles
VLAN tags in the packets are necessary for the switch to identify packets of
different VLANs. The switch works at Layer 2 (Layer 3 switches are not discussed in
this chapter) and it can identify the data link layer encapsulation of the packet
only, so you can add the VLAN tag field into only the data link layer encapsulation
if necessary.
In 1999, IEEE issues the IEEE 802.1Q protocol to standardize VLAN
implementation, defining the structure of VLAN-tagged packets.
In traditional Ethernet data frames, the type field of the upper layer protocol is
encapsulated after the destination MAC address and source MAC address, as
shown in Figure 26
Figure 26
Encapsulation format of traditional Ethernet frames
Switch
Router
Switch
VLAN A
VLANB
VLAN A
VLANB
VLAN A
VLAN B
Type
Data
DA&SA
Summary of Contents for Switch 7754
Page 32: ...32 CHAPTER 1 CLI OVERVIEW ...
Page 70: ...70 CHAPTER 5 LOGGING IN USING MODEM ...
Page 76: ...76 CHAPTER 7 LOGGING IN THROUGH NMS ...
Page 86: ...86 CHAPTER 9 CONFIGURATION FILE MANAGEMENT ...
Page 120: ...120 CHAPTER 13 ISOLATE USER VLAN CONFIGURATION ...
Page 126: ...126 CHAPTER 14 SUPER VLAN ...
Page 136: ...136 CHAPTER 16 IP PERFORMANCE CONFIGURATION ...
Page 152: ...152 CHAPTER 17 IPX CONFIGURATION ...
Page 164: ...164 CHAPTER 19 QINQ CONFIGURATION ...
Page 172: ...172 CHAPTER 21 SHARED VLAN CONFIGURATION ...
Page 182: ...182 CHAPTER 22 PORT BASIC CONFIGURATION ...
Page 198: ...198 CHAPTER 24 PORT ISOLATION CONFIGURATION ...
Page 208: ...208 CHAPTER 25 PORT SECURITY CONFIGURATION ...
Page 224: ...224 CHAPTER 27 DLDP CONFIGURATION ...
Page 232: ...232 CHAPTER 28 MAC ADDRESS TABLE MANAGEMENT ...
Page 240: ...240 CHAPTER 29 CENTRALIZED MAC ADDRESS AUTHENTICATION CONFIGURATION ...
Page 280: ...280 CHAPTER 30 MSTP CONFIGURATION ...
Page 348: ...348 CHAPTER 35 IS IS CONFIGURATION ...
Page 408: ...408 CHAPTER 39 802 1X CONFIGURATION ...
Page 412: ...412 CHAPTER 40 HABP CONFIGURATION ...
Page 422: ...422 CHAPTER 41 MULTICAST OVERVIEW ...
Page 426: ...426 CHAPTER 42 GMRP CONFIGURATION ...
Page 480: ...480 CHAPTER 47 PIM CONFIGURATION ...
Page 506: ...506 CHAPTER 48 MSDP CONFIGURATION ...
Page 552: ...552 CHAPTER 51 TRAFFIC ACCOUNTING CONFIGURATION ...
Page 570: ...570 CHAPTER 53 HA CONFIGURATION ...
Page 582: ...582 CHAPTER 54 ARP CONFIGURATION SwitchA arp protective down recover interval 200 ...
Page 622: ...622 CHAPTER 58 DHCP RELAY AGENT CONFIGURATION ...
Page 684: ...684 CHAPTER 61 QOS CONFIGURATION ...
Page 718: ...718 CHAPTER 63 CLUSTER ...
Page 738: ...738 CHAPTER 67 UDP HELPER CONFIGURATION ...
Page 752: ...752 CHAPTER 69 RMON CONFIGURATION ...
Page 772: ...772 CHAPTER 70 NTP CONFIGURATION ...
Page 796: ...796 CHAPTER 72 FILE SYSTEM MANAGEMENT ...
Page 802: ...802 CHAPTER 73 BIMS CONFIGURATION ...
Page 814: ...814 CHAPTER 74 FTP AND TFTP CONFIGURATION ...
Page 830: ...830 CHAPTER 75 INFORMATION CENTER ...
Page 836: ...836 CHAPTER 76 DNS CONFIGURATION ...
Page 852: ...852 CHAPTER 77 BOOTROM AND HOST SOFTWARE LOADING ...
Page 858: ...858 CHAPTER 78 BASIC SYSTEM CONFIGURATION DEBUGGING ...