Configuring Arp Parameters; How Arp Works - Dell PowerConnect B-RX Configuration Manual

Configuring ARP parameters

Address Resolution Protocol (ARP) is a standard IP protocol that enables the device to obtain the
MAC address of another device's interface when the device knows the IP address of the interface.
ARP is enabled by default and cannot be disabled.

How ARP works

The device needs to know a destination's MAC address when forwarding traffic, because the device
encapsulates the IP packet in a Layer 2 packet (MAC layer packet) and sends the Layer 2 packet to
a MAC interface on a device directly attached to the device. The device can be the packet's final
destination or the next-hop router toward the destination.
The device encapsulates IP packets in Layer 2 packets regardless of whether the ultimate
destination is locally attached or is multiple router hops away. Since the device's IP route table and
IP forwarding cache contain IP address information but not MAC address information, the device
cannot forward IP packets based solely on the information in the route table or forwarding cache.
The device needs to know the MAC address that corresponds with the IP address of either the
packet's locally attached destination or the next-hop router that leads to the destination.
For example, to forward a packet whose destination is multiple router hops away, the device must
send the packet to the next-hop router toward its destination, or to a default route or default
network route if the IP route table does not contain a route to the packet's destination. In each
case, the device must encapsulate the packet and address it to the MAC address of a locally
attached device, the next-hop router toward the IP packet's destination.
To obtain the MAC address required for forwarding a datagram, the device does the following:
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BigIron RX Series Configuration Guide
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First, the device looks in the ARP cache (not the static ARP table) for an entry that lists the MAC
address for the IP address. The ARP cache maps IP addresses to MAC addresses. The cache
also lists the port attached to the device and, if the entry is dynamic, the age of the entry. A
dynamic ARP entry enters the cache when the device receives an ARP reply or receives an ARP
request (which contains the sender's IP address and MAC address). A static entry enters the
ARP cache from the static ARP table (which is a separate table) when the interface for the
entry comes up.
To ensure the accuracy of the ARP cache, each dynamic entry has its own age timer. The timer
is reset to zero each time the device receives an ARP reply or ARP request containing the IP
address and MAC address of the entry. If a dynamic entry reaches its maximum allowable age,
the entry times out and the software removes the entry from the table. Static entries do not
age out and can be removed only by you.
If the ARP cache does not contain an entry for the destination IP address, the device
broadcasts an ARP request out all its IP interfaces. The ARP request contains the IP address of
the destination. If the device with the IP address is directly attached to the device, the device
sends an ARP response containing its MAC address. The response is a unicast packet
addressed directly to the device. The device places the information from the ARP response into
the ARP cache.
ARP requests contain the IP address and MAC address of the sender, so all devices that
receive the request learn the MAC address and IP address of the sender and can update their
own ARP caches accordingly.
Configuring ARP parameters
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