Frame flow, Figure 12-1. frame flow through a vlan – Dell PowerEdge VRTX User Manual

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FILE LOCATION: C:\Users\gina\Desktop\Checkout_new\Dell Plasma\User

Guide\Plasma_UGSwitching_VLAN.fm

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bridging domain. The bridging domain is supported on various pieces of

network equipment; for example, LAN switches that operate bridging

protocols between them with a separate bridge group for each VLAN.
VLANs are created to provide the segmentation services traditionally

provided by routers in LAN configurations. VLANs address scalability,

security, and network management. Routers in VLAN topologies provide

broadcast filtering, security, address summarization, and traffic flow

management.
None of the switches, within a defined group, will bridge any frames, not even

broadcast frames, between two VLANs.

Frame Flow

Figure 12-1 describes the flow of VLAN frames from the Ingress port to the

Egress port:

Figure 12-1. Frame Flow Through a VLAN

When a frame is received, it must be assigned a VLAN. VLAN assignment is

accomplished by the following steps:

1 If the frame contains a VLAN tag, that tag is used, otherwise the frame is

classified by the port's default VLAN (PVID), if it is defined.

2 After classification, the frame may pass (if enabled) through ingress

filtering, where the frame is dropped if the frame's VLAN ID is not one of

the VLANs to which the ingress port belongs.

3 A forwarding decision is made, as a function of the VLAN ID and the

destination MAC address.

Ingress

Egress

VLAN

Classification

Ingress

Filtering

Egress

Filtering

Progress

Forwarding

Decision

Filtering

Database

Received

Frame

T ransmitted
Frame

Ingress

Egress

VLAN

Classification

Ingress

Filtering

VLAN

Classification

Ingress

Filtering

Egress

Filtering

Progress

Forwarding

Decision

Filtering

Database

Received

Frame

T ransmitted
Frame