From: The Deviant <deviant@pooh-corner.com>
To: wichita@cyberstation.net
Message Hash: 4e718300e4a3bc2a462b7708756156eb22abf4f32db5b7ab5f32d3523c736618
Message ID: <Pine.LNX.3.94.961201055717.6492A-100000@random.sp.org>
Reply To: <Pine.BSI.3.95.961130031128.19278J-100000@citrine.cyberstation.net>
UTC Datetime: 1996-12-01 06:01:51 UTC
Raw Date: Sat, 30 Nov 1996 22:01:51 -0800 (PST)
From: The Deviant <deviant@pooh-corner.com>
Date: Sat, 30 Nov 1996 22:01:51 -0800 (PST)
To: wichita@cyberstation.net
Subject: Re: IPG Algorith Broken!
In-Reply-To: <Pine.BSI.3.95.961130031128.19278J-100000@citrine.cyberstation.net>
Message-ID: <Pine.LNX.3.94.961201055717.6492A-100000@random.sp.org>
MIME-Version: 1.0
Content-Type: text/plain
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On Sat, 30 Nov 1996 wichita@cyberstation.net wrote:
>
>
> On Sun, 24 Nov 1996, Ben Laurie wrote:
>
> > The Deviant wrote:
> > >
> > > -----BEGIN PGP SIGNED MESSAGE-----
> > >
> > > On Sun, 24 Nov 1996, John Anonymous MacDonald wrote:
> > >
> > > >
> > > > At 6:56 PM 11/23/1996, The Deviant wrote:
> > > > >On Sat, 23 Nov 1996, John Anonymous MacDonald wrote:
> > > > >> The good news is that you can prove a negative. For example, it has
> > > > >> been proven that there is no algorithm which can tell in all cases
> > > > >> whether an algorithm will stop.
> > > > >
> > > > >No, he was right. They can't prove that their system is unbreakable.
> > > > >They _might_ be able to prove that their system hasn't been broken, and
> > > > >they _might_ be able to prove that it is _unlikely_ that it will be, but
> > > > >they *CAN NOT* prove that it is unbreakable. This is the nature of
> > > > >cryptosystems.
> > > >
> > > > Please prove your assertion.
> > > >
> > > > If you can't prove this, and you can't find anybody else who has, why
> > > > should we believe it?
> > >
> > > Prove it? Thats like saying "prove that the sun is bright on a sunny
> > > day". Its completely obvious. If somebody has a new idea on how to
> > > attack their algorithm, it might work. Then the system will have been
> > > broken. You never know when somebody will come up with a new idea, so the
> > > best you can truthfully say is "it hasn't been broken *YET*". As I
> > > remember, this was mentioned in more than one respected crypto book,
> > > including "Applied Cryptography" (Schneier).
> >
> > It seems appropriate to quote Schneier on the subject:
> >
> > "Those who claim to have an unbreakable cipher simply because they can't break
> > it are either geniuses or fools. Unfortunately, there are more of the latter in
> > the world."
> >
> I cannot argue with that, obviously he is correct.
> >
> > And...
> >
> > "Believe it or not, there is a perfect encryption system. It's called a
> > one-time pad..."
> >
> Paul Bradley and others believe that you can brute force One Time Pads.
> Of course, you cannot and neither can you brute force our system. It is
> mathematically impossible as we have expounded on at length in past
> postings.
>
> With Kindest regards,
>
> Don Wood
>
The closest anybody has come to mathematically proving anything about the
IPG algorithm was what you just said, which is nothing. "It has been
proven" and "we have posted proof" are neither mathematical nor proof.
--Deviant
PGP KeyID = E820F015 Fingerprint = 3D6AAB628E3DFAA9 F7D35736ABC56D39
It would be illogical to assume that all conditions remain stable.
-- Spock, "The Enterprise Incident", stardate 5027.3
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