Security; Safeguard Engine - D-Link DES-3528 User Manual

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xStack DES-3528 Series Layer 2 Stackable Fast Ethernet Managed Switch User Manual

Security

Safeguard Engine

Trusted Host

IP-MAC-Port Binding

Port Security

DHCP Server Screening

802.1X

SSL Settings

SSH

Access Authentication Control

MAC-based Access Control

Web Authentication

JWAC

NetBIOS Filtering Settings

Safeguard Engine

Periodically, malicious hosts on the network will attack the Switch by utilizing packet flooding (ARP Storm) or other

methods. These attacks may increase the Safeguard Engine beyond its capability. To alleviate this problem, the

Safeguard Engine function was added to the Switch's software.

The Safeguard Engine can help the overall operability of the Switch by minimizing the workload of the Switch while the

attack is ongoing, thus making it capable to forward essential packets over its network in a limited bandwidth. When

the Switch either (a) receives too many packets to process or (b) exerts too much memory, it will enter an Exhausted

mode. When in this mode, [0]the Switch only receives a small amount of ARP or IP broadcast packets for a calculated

time interval. Every five seconds, the Switch will check to see if there are too many packets flooding the Switch. If the

threshold has been crossed, the Switch will do a rate limit and only allow a small amount of ARP and IP broadcast

packets for five seconds. After another five-second checking interval arrives, the Switch will again check the ingress

flow of packets. If the flooding has stopped, the Switch will again begin accepting all packets. Yet, if the checking

shows that there continues to be too many packets flooding the Switch, it will still only accept a small amount of ARP

and IP broadcast packets for double the time of the previous stop period. This doubling of time for stopping ingress

ARP and IP broadcast packets will continue until the maximum time has been reached, which is 320 seconds and

every stop from this point until a return to normal ingress flow would be 320 seconds. For a better understanding,

examine the following example of the Safeguard Engine.

Section 9

126

Table of Contents

Security; Safeguard Engine - D-Link DES-3528 User Manual

Security

Safeguard Engine

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