Like anonymous, I've been reading some of the palladium and TCPA docs. I think some of the current disagreements and not very strongly technology grounded responses to anonymous are due to the lack of any concise and informative papers describing TCPA and palladium. Not everyone has the energy to reverse engineer a detailed 300-odd pages of TCPA spec [1] back into high-level design considerations; the more manageably short business level TCPA FAQs [2], [3] are too heavily PR spun and biased to extract much useful information from. So so far I've read Ross Anderson's initial expose of the problem [4]; plus Ross's FAQ [5]. (And more, reading list continues below...). The relationship between TCPA, and Palladium is: - TCPA is the hardware and firmware (Compaq, Intel, IBM, HP, and Microsoft, plus 135+ other companies) - Palladium is a proposed OS feature-set based on the TCPA hardware (Microsoft) The main 4 features proposed in the TCPA/palladium scheme are: 1. secure bootstrap -- checksums of BIOS, firmware, privileged OS code are used to ensure the machine knows whether it is running certified software or not. This is rooted in hardware, so you can't by pass it by using virtualization, only by hardware hacking (*). 2. software attestation -- the hardware supports attesting to a third party whether a call comes from a certified software component as assured by the hardware described in feature 1. 3. hardware assisted compartmentalization -- CPU can run privileged software, and RAM can contain information that you can not examine, and can not modify. (Optionally the software source can be published, but that is not necessary, and if it's not you won't be able to reverse-engineer it as it can be encrypted for the CPU). 4. sealing -- applications can store data that can only be read by that application. This works based on more hardware -- the software state checksums developed in feature 1 are used by hardware to generate encryption keys. The hardware will refuse to generate the key unless the same software state is running. One good paper to understand the secure bootstrap is an academic paper "A Secure and Reliable Bootstrap architecture" [6]. It's interesting to see that one of the author's of [6] has said that TCPA as curently formed is a bad thing and is trying to influence TCPA to make it more open, to exhibit stronger privacy properties read his comments at [7]. There are a lot of potential negative implications of this technology, it represents a major shift in the balance of power comparable in magnitude to the clipper chip: 1. Potentially cedes control of the platform -- while the palladium docs talk about being able to boot the hardware with TCPA turned off, there exists possibility that with minor configuration change the hardware / firmware ensemble that forms palladium/TCPA could be configured to allow only certified OSes to boot, period. It's intereseting to note, if I read correctly, that the X-box (based on celeron processor and TCPA / TCPA-like features) does employ this feature. See for example: [8]. The documents talk about there being no barrier to certifying TCPA aware extensions to open-source OSes. However I'm having trouble figuring out how this would work. Perhaps IBM with it's linux support would build a TCPA extension for linux. Think about it -- the extension runs in privileged mode, and presumably won't be certified unless it passes some audit enforcing TCPA policies. (Such as keeping the owner of the machine from reading sealed documents, or reading the contents of DRM policy controlled documents without meeting the requirements for the DRM policy.) 2. DSS over-again -- a big aspect of the DSS reverse-engineering was to allow DVDs to be played in software on linux. The TCPA platform seems to have the primary goal of making a framework within which it is possible to build extensions to implement hardware tamper resistant DRM. (The DRM implementation would run in a hardware assisted code compartment as described in feature 3 above). So now where does that put open source platforms? Will they be able to read such DRM protected content? It seems likely that in the longer term the DRM platform will include video cards without access to video memory, perhaps encryption of the video signal out to the monitor, and of audio out to the speakers. (There are other existing schemes to do these things which dovetail into the likely TCPA DRM framework.) With the secure boot strap described in feature 1, the video card and so on are also part of the boot strap process, so the DRM system would have ready support from the platform for robustly refusing to play except on certain types of hardware. Similarly the application software which plays these DRM policy protected files and talks to the DRM policy module in the hardware assisted code compartment will itself be an application which uses the security boot-strapping features. So it won't be possible to write an application on for example linux to play these files without an audit and license etc from various content, DRM and OS cartels. This will lead to exactly the kind of thing Richard Stallman talked about in his prescient paper on the coming platform and right to develop competing software control wars [9]. 3. Privacy support is broken -- the "privacy" features while clearly attempts to defuse a re-run at the pentium serial number debacle, have not really fixed it's problems. You have to trust the "Trusted Third Party" privacy CA not to track you and not to collude with other CAs and software vendors. There are known solutions to this particular sub-problem, for example Stefan Brands digital credentials [10], which can be used to build a cryptographically assured privacy preserving PKI avoiding the linking problems arising from identity based and attribute certificates. 4. Strong enforcement for DMCA DRM excesses -- the types of DRM system which the platform enables stand a fair chance of providing high levels of enforcement for things which though strictly legally mandated (copyright licensing restrictions, limited number of plays of CDs / DVDs other disadvantageous schemes; inflexible and usurious software licensing), if enforced strictly would have deleterious effects on society and freedom. Copyright violation is widely practiced to a greater or less extent by just about all individuals. It is widely viewed as acceptable behavior. These social realities and personal freedoms are not taken into account or represented in the lobbying schemes which lead to the media cartels obtaining legal support for the erosion of users rights and expansionist power grabs in DMCA, WIPO etc. Some of these issues might be not so bad except for the track records, and obvious monopolistic tendencies and economic pressures on the entities who will have the root keys to the worlds computers. There will be no effect choice or competition due to existing near monopolies, or cartelisation in the hardware, operating system, and content distribution conglomerates. 5. Strong enforcement for the software renting model -- the types of software licensing policy enforcement that can be built with the platform will also start to strongly enable the software and object rental ideas. Again potentially these models have some merit except that they will be sabotaged by API lock out, where the root key owners will be able to charge monopoly rents for access to APIs. 6. Audits and certification become vastly more prevalent. Having had some involvement with software certification (FIPS 140-1 / CC) I can attest that this can be expensive exercises. It is unlikely that the open source community will be able to get software certified due to cost (the software is free, there is no business entity to claim ownership of the certification rights, and so no way to recuperate the costs). While certification where competition is able to function is a good thing, providing users with a transparency and needed assurance, the danger with tying audits to TCPA is that it will be another barrier to entry for small businesses, and for open source particularly. 7. Untrusted, unauditable software will be able to run without scrutiny inside the hardware assisted code compartments. Some of the documentation talks about open sourcing some aspects. While this may come to pass, but that sounded like the TOR (Trusted Operating Root); other extension modules also running in unauditable compartments will not be so published. 8. Gives away root control of your machine -- providing potentially universal remote control of users machines to any government agencies with access to the TCPA certification master keys, or policies allowing them to demand certifications on hostile code on demand. Central authorities are likely to be the only, or the default controllers of the firmware/software upgrade mechanism which comes as part of the secure bootstrap feature. 9. Provides a dangerously tempting target for government power-grabs -- governments will be very interested to be able to abuse the power provided by the platform, to gain access to it's keys to be able to insert remote backdoors, and/or to try to mandate government policy enforcement modules once such a platform is built. Think this is unrealistic? Recall clipper? The TCPA is a generic extensible policy enforcement architecture which can be configured to robustly enforce policies against the interests of the machine owner. Clipper, key-escrow the whole multi-year fight, at some point in the near future if some of the more egregious TCPA/Palladium framework features and configuration possibilities becomes widely deployed could be implemented after the fact, as a TCPA/Palladium policy extentsion which runs in the hardware assisted code compartment and is authenticated up to the hardware boot by the secure bootstrapping process. So what I've read so far, I think people's gut reactions are right -- that it's an aggressive and abmitious power grab by the evil empire -- the 3 cartels / monopolies surrounding PC hardware, Operating systems and Content Distribution. The operating system near monoply will doubtless find creative ways to use and expand the increased control to control application interoperability (with the sealing function), to control with hardware assistance the access to undocumented APIs (no more reverse engineering, or using the APIs even if you do / could reverse engineer). So some of the already applications are immediately objectionable. The scope for them to become more so with limited recourse or technical counter-measures possible on the part of the user community is huge. Probably the worst aspect is the central control -- it really effectively does give remote root control to your machine to people you don't want to trust. Also the control _will_ be abused for monopolistic rent seeking and exclusionary policies to lock-out competition. Don't forget the fact that microsoft views linux as a major enemy as revealed by documents uncovered some the anti-trust discovery process. In fact I'd say this is the biggest coming risk to personal freedom since the days during the onset of the clipper chip / key escrow looked like they stood some chance of becoming reality. Adam -- http://www.cypherspace.org/adam/ (*) It may be possible to hack the firmware, given access to source temporarily. [1] "Trusted Computing Platform Alliance (TCPA) Main Specification Version 1.1b", TCPA http://www.trustedcomputing.org/docs/main%20v1_1b.pdf [2] "TCPA Specification/TPM Q&A", TCPA http://www.trustedcomputing.org/docs/TPM_QA_071802.pdf [3] "TCPA Frequently Asked Questions Rev 5.0", TCPA http://www.trustedcomputing.org/docs/Website_TCPA%20FAQ_0703021.pdf [4] "Security in Open versus Closed Systems (The Dance of Boltzmann, Coase and Moore)", Ross Anderson, (Sections 4 and 5 only, rest is unrelated) ftp://ftp.cl.cam.ac.uk/users/rja14/toulouse.pdf [5] "TCPA / Palladium Frequently Asked Questions Version 1.0" http://www.cl.cam.ac.uk/~rja14/tcpa-faq.html [6] "A Secure and Reliable Bootstrap Architecture" @inproceedings{Arbaugh:97:secure-bootstrap, author = "Bill Arbaugh and Dave Farber and Jonathan Smith", title = "A Secure and Reliable Bootstrap Architecture", booktitle = "Proceedings of the IEEE Symposium on Security and Privacy", pages = 65-71, note = "Also available as \url{http://www.cis.upenn.edu/~waa/aegis.ps}" } [7] "The TCPA; What's wrong; What's right and what to do about", William Arbaugh, 20 Jul 2002 http://www.cs.umd.edu/~waa/TCPA/TCPA-goodnbad.html [8] "Keeping Secrets in Hardware: the Micrsoft Xbox Case Study", Andre "bunnie" Huang, 26 May 2002 http://web.mit.edu/bunnie/www/proj/anatak/AIM-2002-008.pdf [9] "The Right to Read", Richard Stallman, Feb 1997, Communications of the ACM (Volume 40, Number 2). http://www.gnu.org/philosophy/right-to-read.html [10] Stefan Brands Book "Rethinking Public Key Infrastructures and Digital Certificates - Building in Privacy", MIT Press, Aug 2000. http://www.xs4all.nl/~brands/ Number of other technical and semi-technical papers on that page. --------------------------------------------------------------------- The Cryptography Mailing List Unsubscribe by sending "unsubscribe cryptography" to majordomo@wasabisystems.com