Binary representation, Logical and function, Implied rules – Netopia 3300 User Manual

Security 10-41

and a packet goes through these rules destined for FTP, the packet would for ward through the first filter rule
(WWW), match the second rule (FTP), and the packet is allowed through. Even though the next rule is to deny all
FTP traffic, the FTP packet will never make it to this rule.

Binary representation

It is easiest when doing filtering to conver t the IP address and mask in question to binar y. This will allow you to
per form the logical AND to determine whether a packet matches a filter rule.

Logical AND function

When a packet is compared (in most cases) a logical AND function is per formed. First the IP addresses and
subnet masks are conver ted to binar y and then combined with AND. The rules for the logical use of AND are as
follows:

0 AND 0 = 0

0 AND 1 = 0

1 AND 0 = 0

1 AND 1 = 1

For example:

Filter rule:

Deny

IP: 163.176.1.15BINARY:

10100011.10110000.00000001.00001111

Mask: 255.255.255.255BINARY:11111111.11111111.11111111.11111111

Incoming Packet:

IP 163.176.1.15BINARY:

10100011.10110000.00000001.00001111

If you put the incoming packet and subnet mask together with AND, the result is:

10100011.10110000.00000001.00001111

which matches the IP address in the filter rule and the packet is denied.

Implied rules

With a given set of filter rules, there is an Implied rule that may or may not be shown to the user. The implied
rule tells the filter set what to do with a packet that does not match any of the filter rules. An example of implied
rules is as follows:

Implied

Meaning

Y+Y+Y=N

If all filter rules are YES, the implied rule is NO.

N+N+N=Y

If all filter rules are NO, the implied rule is YES.

Y+N+Y=N

If a mix of YES and NO filters, the implied rule is NO.