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Date: 2001-02-17

Festplatten: Das Kopierschutz-Komplott


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Warum CPRM [Content Protection for Recordable Media]
sich nicht auf Flash-Bausteine beschränken wird und
Festplatten mit eingebautem Kopierschutz - IBM, Intel,
Toshiba and Matsushita treiben das voran - die nächste Stufe
des Coypright-Wahnsinns sind, erklärt Bruce Schneier.

Cryptome wiederum hostet seit gestern ein US-Urteil zum
Copyright-Komplex, die Kläger wurden von Lawrence Lessig
vertreten

http://cryptome.org/eldred-v-reno.htm

related

http://www.quintessenz.at/archiv/msg01411.html
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CPRM (Content Protection for Recordable Media) is a
system for enforcing copy protection on personal computers.
The basic idea is to enforce digital rights management --
copy-prevention, limited use, whatever -- in electronic media.

In more detail, the scheme requires specially designed
copying software. This software communicates directly to
the disk drive, bypassing the operating system. To write a
document, first the drive and the software authenticate to
each other. Then the drive sends the software keying
material that is stored in a nonstandard place on the drive
that's unique to the medium, and also reads back an
increment-only counter in the medium. The user-level
application -- or, more likely, a server somewhere on the Web
-- encrypts the file using that keying material. The encrypted
object is written as an ordinary file on the medium. An
intermediate key file is written as a second ordinary file.

The "player" for these encrypted objects will pull an
increment-only counter out of the drive, use it and the keying
material to decrypt the intermediate key-file, and then extract
the document key from that file. It will then play the
document.

To move (as opposed to copy) the document to another disk,
the software will check to determine if this is permissible.
(Perhaps the permissions will be embedded in the file;
perhaps the software will query another computer over the
Internet.) If the move is allowed, the software will re-encrypt
the document for the new medium (only allowing it to be
stored in a copy-protected medium), increment the increment-
only counter in the old medium, generate a new key-file key
with the new counter value, and rewrite the old key-file,
deleting the key that would allow the old copy to be played.
After moving the document, even if the user keeps a copy of
the encrypted bits, it won't play on the original medium
because its key won't be in the key-file on that medium.

If a user copies the encrypted object to another medium
without going through the approved procedure, its key won't
be in the key-file on the new medium, so the reader can't
play it. If the user copies both of them to another medium,
the key-file won't be decryptable since its key depends on
the medium-specific keying info. If the user makes a backup
copy of his entire disk, "moves" the encrypted song onto
another medium, then scrubs and restores the entire original
disk, the restored key-file won't be decryptable, since the
increment-only counter (that is hashed with the medium-
specific keys to produce the key-file key) will have changed.

There are other tricks built into the system. There's no single
global secret to steal, and there's a mechanism to recover
security if some of the many global secrets get out. The
system is based on something called "broadcast
encryption," developed by Amos Fiat and Moni Naar in 1993.

The technology will be ineffective, but that may not matter.

Broadly speaking, there are three classes of people who
copy documents. There are average users, who just want a
second copy for whatever reason but won't use hacker tools.
There are more savvy users, who are willing to download
programs that break copy-protection schemes. And there
are professionals, who are prepared to spend serious money
to break copy-protection schemes.

Against the first group, any security measure works. This
hardware scheme is overkill. Against the second group, any
scheme that involves software fails. I've written about this
extensively both in _Secrets and Lies_ (see pp. 250-253) and
in a previous issue of Crypto-Gram. Basically, the scheme
described above has a key stored in hardware and a software
decryptor. To break the scheme, you don't need to extract
the hardware key. You can let the decryption software do it
normally, and then grab the document after decryption and
before play. Someone will write software do to this, just as
someone has written software to get around every other
similar scheme. The hardware component doesn't matter.

Where it will make a difference is in devices that don't
expose the decrypted document. The reason the computer
embodiment fails is because the document exists
unencrypted in the computer, and a hacker can write a
program to take advantage of that. If this copy protection is
brought forward to the video monitor, or the speakers, then
the document never exists in the computer in unencrypted
form. If the scheme only runs on DVD players or MP3
devices or anything else where you can't run custom
software, this is much more effective.

But it still doesn't work against the third class of attackers:
the professionals. These are people willing to invest in
custom hardware. They will always be able to break these
schemes and extract the documents. And they will always
be able to produce and sell bootlegs, at least to the limits of
law enforcement in whatever country they're in.

There is another angle here, making this even more
complicated. Content providers are no longer relying on
technology to enforce copy protection, they're relying on
laws. The algorithms used in this scheme will be patented,
so anyone who writes a hacked decoder will be infringing on
the patent. And any software designed to circumvent this
mechanism will be illegal under the Digital Millennium
Copyright Act. Not only can the authors of this software be
prosecuted, but so can people who "traffic" in this software:
e.g., post or link to it on their Web site.

This will not make it any harder to find such circumvention
software -- notice how easy it is to find DeCSS today with
your search engine -- but it will have a chilling effect on the
whole idea. 2600 Magazine was successfully prosecuted for
linking to DeCSS; similar pressure will be brought to bear
against anyone who publicizes any DeCPRM software.

So, what do we have here? We have a serious threat to civil
liberties: large entertainment companies are allying
themselves with the computer industry to dictate what can
and can't happen on your hard drive. (CPRM is only
supposed to be for flash memory. This is a lie, of course.
Already it is planned for IBM's tiny hard drive, and larger
drives aren't far behind.) We have a technology that will, in
some circumstances, make backups impossible.
Compatibility problems between disk drives that have CPRM
and those that don't will force networks to completely
upgrade their mass storage. We have a technology that
forces users to buy proprietary decoding software forever.
We have a technology that won't really work unless it
extends to computer output devices; you may find yourself
forced to upgrade your monitor as well to watch movies on
your computer. And we have an increased reliance on legal
harassment by media companies. It's that last bit that
scares me the most.

The proposal:
<http://www.theregister.co.uk/content/2/15620.html>
<http://www.lmicp.com/4centity/data/tech/cpsa/cpsa081.pdf>
<http://www.lmicp.com/4centity/data/tech/4cspec.pdf>
<http://www.theregister.co.uk/content/2/15718.html>
<http://www.theregister.co.uk/content/2/15797.html>

What's Wrong with Copy Protection, by John Gilmore:
<http://www.toad.com/gnu/whatswrong.html>

Copy protection and why it doesn't work:
<http://www.counterpane.com/crypto-gram-9811.html#copy>

EFF's archives on the topic: <http://www.eff.org/IP/>

The 4C Entity (IBM, Intel, Toshiba and Matsushita), which
owns and advocates CPRM:
<http://www.dvdcca.org/4centity/>


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edited by Harkank
published on: 2001-02-17
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