Mark Miller pointed out to me that currently much of our protection from viruses comes from people at the anti-virus companies who quickly grab each new virus, reverse engineer it, and send out information about its
At 11:06 PM 10/22/03 -0700, Bill Frantz wrote: payload
and effects.
You could be talking about biology as well. Any system which hides code from reverse engineering will
make this process more difficult. To the extend that Palladium/TCPA/NGSCB hides code, and to the extent it succeeds at this hiding, the more it encourages new and more pervasive viruses.
A virus that contains "friendly" IFF codes can evade an immune system. Some cloak themselves in membranes derived from cells they were born in. Thus they present the right IFF response. A virus that appears to Palladium to be friendly and worthy of the full protection -the right hashes, etc- will be a fun thing. Some virii are innocuous except when they pick up a piece of virulence code. Then they kill. IIRC anthrax is like this, some of the streps. One can imagine writing a virus which is in fact merely a bit of virulence code taken in by an other innocuous but replicating program. Its common in biolabs to cross a hard-to-grow nasty with an easy-to-grow labbug so you can study the nasty. Sometimes, the result is dangerous. See the synthetic mousepox which killed the mice. And virii that infect the immune system can be fun too --imagine a virus infecting your antiviral program. HIV for Windows.