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Downloadable Conditional Access System or DCAS was a proposal advanced by CableLabs for secure software download of a specific Conditional Access client (computer program) which controls digital rights management (DRM) into an OCAP-compliant host consumer media device. The National Cable & Telecommunications Association (NCTA) proposed that DCAS be used as a substitute for physical CableCARDs, a standard also created by CableLabs for which products began appearing in August 2004 as part of industry compliance to the FCC mandate, which in turn is pursuant to the Telecommunications Act of 1996. DCAS is growing in popularity as a less expensive alternative for CableCARD, with major North American operator deployments from Cablevision and Charter. DCAS deployments can be expected to grow in the coming years, thanks to favorable regulatory view from the STELA Reauthorization Act of 2014 and FCC appointing a Downloadable Security Technical Advisory Committee, and wider support for key ladder (K-LAD) functionality from system-on-chip (SoC) vendors and set-top box manufacturers.
DCAS in the early days, was a controversial proposal for a variety of reasons: it did not exist, had no set deadlines for support on all cable systems, no specification even in draft form was public, may not have satisfied FCC requirements that security modules be separable, and required an operating system (OCAP) that a majority of consumer electronics (CE) manufacturers did not wish to implement. The DCAS project was abandoned by CableLabs in 2009.
DCAS, as envisioned, removed the need for physical set-top boxes or CableCARDs to protect encrypted digital content. It was proposed that instead of a card with removable circuitry, a custom ASIC chip could be soldered onto the circuitboard of any digital cable-ready device. DCAS software would then run on this custom chip. Additional circuitry needed to run the OCAP operating system would be required. OCAP programs then would be used as the sole method of interacting with DCAS since it will enable cable companies to force the download of new security software. As set-top box ASICs have now advanced to SoC implementations, the minimum hardware circuitry to store key ladders (K-LAD) is embedded in the silicon, enabling much of the security functions to be implemented in software. Further, just as traditional set-top box functionality such as user-interface and middleware are moving to the cloud, DCAS enables much of the security functions also to move to the server side or the cloud. This allows thin client set-top boxes to be deployed that can be remotely managed, in lieu of the more expensive cableCARD based systems.
The basic purpose of DCAS was to implement DRM protection in software, supported by future OCAP-compliant consumer devices such as digital televisions, DVRs, and set-top boxes (still required to support legacy non-OCAP-compliant devices). This would secure the information transmitted in the link between the cable company and the consumer device. Besides decryption, the DCAS software would control how the content is used—whether it must be deleted immediately after viewing, or after a set period of time, which devices it may be transferred to and if transfer or recording is permitted. The scheme could possibly be used more broadly and was being advanced by Rupert Murdoch's company NDS as a DRM method useful also for portable media players and other devices not attached to cable networks. An allegedly working DCAS prototype was created by Samsung and NDS for the cable industry and was demonstrated to the FCC in November 2005.
According to Brian Dietz of the National Cable & Telecommunications Association (NCTA):
...we expect downloadable security to be supported nationwide by MSOs by July 2008.
It was asserted by proponents that DCAS provided greater security for the cable industry because it allows them to change their entire security structure by downloading new software into host devices. If a particular encryption algorithm is cracked, it could be replaced by another one. Detractors noted that if the physical circuitry is compromised, it may not be replaced as is the case with CableCARDs. Some DCAS scenarios could use removable cards: OCAP-based devices may incorporate internal support for a kind of "smart card" (similar to the current SIM chip in a GSM cell-phone) to identify the subscriber and provide further protection. Proponents asserted that DCAS is more supportable since DCAS devices would not require a qualified technician to install the card. Detractors asserted that the final version of DCAS may require a physical card insertion, and that technicians are not required to insert CableCARDs anyway, since they are merely the same kind of cards that consumers routinely insert in their laptops. It was asserted that if cable companies were finally forced to agree on reference
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