Mode of operation. A DVB receiver may have one or two slots implementing the Common Interface (CI). The CI uses the conditional-access module connector and conforms to the Common Scrambling Algorithm (CSA), the normative that specifies that such a receiver must be able to accept DES (Data Encryption Standard) keys in intervals of some milliseconds, and use them to decode private channels. TBS5880 is a hybrid digital TV external box with both DVB-T2/T tuner and DVB-C tuner. You can use it for watching or recording digital terrestrial or cable TV on PC. The integrated CI support makes it possible to watch Pay TV (By inserting the correct CAM and subscription smartcard into the CI slot, premium channels will be available). Combo Receiver Amiko HD8265+ DVB-S2 + DVB-C + DVB-T2 Amiko - Amiko HD8265+ One Conax Embedded card reader. One Common Interface slot. HEVC decoding support. 6000 channels (TV and Radio) programmable. Two High Speed USB 2.0 Connections. Ethernet Connection & USB WiFi Support (Ralink RT5370 chip only) YouTube videos (feature subject to availability). Dreambox DM525 HD DVB-S2 E2 Linux PVR HDTV USB LAN Sat Receiver The compact Dreambox DM525 HD sets new standards with its modern design and state-of-the-art technical equipment. The new video standard H.265, which is required for DVB-T2 reception in Germany and many other countries, is supported by the HDTV Dreambox.
In Digital Video Broadcasting, the Common Interface (also called DVB-CI) is a technology which allows decryption of pay TV channels. Pay TV stations want to choose which encryption method to use. The Common Interface allows TV manufacturers to support many different pay TV stations, by allowing to plug in exchangeable conditional-access modules (CAM) for various encryption schemes.
The Common Interface is the connection between the TV tuner (TV or set-top box) and the module that decrypts the TV signal (CAM). This module, in turn, then accepts the pay-to-view subscriber card, which contains the access keys and permissions.
The host (TV or set-top box) is responsible for tuning to pay TV channels and demodulation of the RF signal, while CAM is responsible for CA descrambling. The Common Interface allows them to communicate with each other. All Common Interface equipment must comply with the EN 50221-1997 standard. This is a defined standard that enables the addition of a CAM in a DTV receiver to adapt it to different kinds of cryptography. The EN 50221 specification allows many types of modules but only the CAM has found popularity because of the pay TV market. Indeed, one of Digital Video Broadcasting's main strengths is the option of implementing the required conditional access capability on the Common Interface.
This allows broadcasters to use modules containing solutions from different suppliers, thus increasing their choice of anti-piracy options.
Mode of operation[edit]
A DVB receiver may have one or two slots implementing the Common Interface (CI). The CI uses the conditional-access module (PCMCIA) connector and conforms to the Common Scrambling Algorithm (CSA), the normative that specifies that such a receiver must be able to accept DES (Data Encryption Standard) keys in intervals of some milliseconds, and use them to decode private channels according to a specific algorithm.
Those algorithms are proprietary to individual suppliers. Each one uses their own algorithms and there is no defined standard for them.
As the full MPEG-2 transport data stream comes out of the demodulator, and error correction units, the DTV Receiver sends it through the card plugged into the Common Interface, before it is processed by the MPEG demultiplexer in the receiver. If several CI cards are present, the MPEG transport data stream will be passed sequentially through all these cards.
An embedded CAM may not physically exist, as it may be in CPU software. In such a case, only the smart card reader normally in the CAM is fitted and not the PCMCIA type CI slots.
Even if the Common Interface has been created to resolve cryptography issues, it can have other functions using other types of modules such as Web Browser, iDTV (Interactive Television), and so forth.
In Europe, DVB-CI is obligatory in all iDTV terminals.
The host sends an encrypted MPEG transport stream to the CAM and the CAM sends the decrypted transport stream back to the host. The CAM often contains a smart-card reader.
Standards[edit]
DVB-CI[edit]
The normative DVB-CI standard EN 50221 was defined in 1997 by CENELEC, the European Committee for Electrotechnical Standardization.
According to the Common Interface scheme:
- host : A device where module(s) can be connected; for example, an Integrated receiver/decoder (IRD), a VCR, a PC ...
- module : A small device, not working by itself, designed to run specialized tasks in association with a host; for example, a conditional access sub system, an electronic program guide application module, or to provide resources required by an application but not provided directly by the host.
The specification only defines two aspects, two logical interfaces to be included on the same physical interface. The first interface is the MPEG-2 Transport Stream. The link and physical layers are defined in this specification and the higher layers are defined in the MPEG-2 specifications. The second interface, the command interface, carries commands between the host (receiver) and the module.
The specification does not define the operation or functionality of a conditional access system application on the module. The applications that may be performed by a module communicating across the interface are not limited to conditional access or to those described in this specification. More than one module may be supported concurrently.
The common interface shares many features of the PC Card Standard (PCMCIA). By reducing the widths of the addressand data buses it has been possible to include a bi-directional parallel transport stream interface.
Transport Stream Interface (TSI)[edit]
The transport stream format is specified by IEC 13818-1 and is the MPEG 2 TS format.
Command Interface[edit]
In addition there is a command interface for communication between the host and module.
This communication is in the form of a layered protocol stack which allows the host and module to share resources. For example, the module can request the current date and time from the host. To use this service, module shall open a session to the 'Date-Time' resource provided by host. Or, module can ask the host to display a message on the TV screen and can then read keypresses from the host remote control. This is done by opening a session to host's Man-Machine Interface (MMI) Resource. This resource also allows the CAM to request and receive PIN numbers.
Some of defined by DVB-CI resources are de facto optional. For example, the host could contain a modem for communication over a telephone line allowing the CAM to implement pay-per-view. This can be done by opening a session to host's Low-Speed Communication (LSC) resource (assuming that the host announced the availability of this resource). The Host Control resource (allowing CAM to request force-tuned) also may be absent in some of hosts.
The definitely mandatory resources are Resource Manager, Application Information and Conditional Access Support ones. First two of these three are necessary for initial handshaking between CAM and its Host, while the CA Support resource is necessary for descrambling the selected channels.
The Command Interface is extensible and there are several specification documents available which describe these extensions (e.g. ETSI TS 101 699). However these extensions have often not proved popular with manufacturers.
CI+[edit]
Definition[edit]
CI+ (also known as CI Plus or Common Interface Plus) is a specification that extends the original DVB Common Interface standard (DVB-CI, sometimes referred to as DVB-CIv1). The main addition introduced by CI+ is a form of copy protection between a CI+ conditional-access module (referenced by the spec as CICAM, while CI+ CAM seems to be a more precise abbreviation) and the television receiver (Host). CI+ is backward compatible with DVB-CIv1. Old television receivers, which have CIv1 CI-slot, can be used with CI+ CAM and vice versa, but for viewing only those of TV programs which are not marked as CI+ protected.
History[edit]
Initial versions[edit]
CI+ specification has been developed by consumer electronic firms Panasonic, Philips, Samsung and Sony, as well as pay-TV technology company SmarDTV and fablesschip maker Neotion.[1]
A first draft of the specification was put up for review in January 2008 as V1.00 CI Plus Specification.The establishment of the Trusted Authority has been completed[2] and an official security certification lab appointed.[3]
In 2009, versions 1.1 and 1.2 were released. The 1.2 version became the first one which was massively deployed.The main features added to the original DVB-CI standard by the CI+ v1.2 are:
- Content Control (allows re-encryption of video and audio on their way from CI+ CAM to its host)
- coordination of CAM firmware upgrade between CAM and its host
- 'CI Plus browser' - support of MHEG-5 applications running on a CI+ host, launched by a CI+ CAM and being able to communicate with it
- support of IP communication was added to the DVB-CI's Low-Speed Communication (LSC) resource (but without renaming it to 'High-Speed').
The spec doesn't state explicitly about each feature if it is mandatory or optional. The mandatory feature (as it's actually the main raison d'être of CI+) is Content Control. The optional feature of v1.2 version is 'PVR Resource' – this can be concluded from the fact that it doesn't appear in newer CI+ spec versions.
CI+ v1.3[edit]
In 2011, version 1.3 of the CI+ spec was released (later, was replaced with CI+ v1.3.1 and then with CI+ v1.3.2 , still commonly referenced as CI+ v1.3). The main features added by CI+ v1.3 to CI+ v1.2 are:
- various enhancements of Content Control mechanism
- coordination of parental control PIN code handling between CAM and its host
- better IP communication support (increased data throughput)
- VOD support
- a new Operator Profile resource allowing CAM to adapt non-standard broadcast-specific service information to standard DVB format understandable by Host.
CI+ v1.4[edit]
With the development of CI+, the standard has now come under the umbrella of the DVB standards organization.[4]
In 2014, DVB released ETSI TS 103 205 V1.1.1 specification, defining what is often referred as 'CI+ v1.4'.The main features added by ETSI TS 103 205 to CI+ v1.3 are:
- multi-tuner support
- URI (usage rules information) extensions (the most prominent is addition of trick mode enable/disable flag)
- IP-delivered video support
- watermarking and transcoding capability
- the communication functionality was extended to support IP multicast and hybrid type of communication (hybrid communication means here that IP multicast data arrive to module over the transport stream interface)
- CI Plus™ browser extensions (interaction channel, streaming, video scaling etc.)
- letting a CI+ CAM to determine if its Host supports an advanced application environment (e.g. HbbTV or MHP) and, if yes, to launch a corresponding application
- allowing CI+ CAM applications to be represented in the Host's channel line-up in form of virtual channels.
CI+ v2.0[edit]
In 2018, ETSI published the second generation DVB-CI standard (often referred to as CI+ v2.0): TS 103 605 V1.1.1.[5] The main evolution of this version is to add USB as physical layer to replace the aging PC Card interface.
Certification[edit]
CI+ Host and CAM testing and certification is carried out by Eurofins Digital Testing (formerly Digital TV Labs) in the UK, Hong Kong, Belgium and Poland.
How it works[edit]
Content protection[edit]
By making use of certificates issued by a trusted certification authority, a secure authenticated channel (SAC) is formed between a CI+ CAM and television receiver (Host). This SAC is used to generate a shared key, unique per a CAM-Host pair, which protects from unauthorized copying the content marked in the associated URI (Usage Rules Info) as a content which needs to be re-encrypted on its way from CAM to Host after removal the original CA or DRM scrambling (in the original CI standard, decrypted content could be sent over the PCMCIA interface only in unscrambled form).
Revocation[edit]
CI+ standard allows revocation of compromised CI+ Hosts. This is done by broadcasting a Service Operator Certificate Revocation List (SOCRL) in a DSM-CC data carousel. If CAM detects that its Host's ID, model or brand is listed in SOCRL (and isn't listed in optional SOCWL - Service Operator Certificate White List), the CAM must refuse descrambling the content marked in CI+ URI as protected. A SOCRL is created and signed by the CI+ Root-of-Trust on request of a Service Operator.To prevent replay of out-of-dated SOCRL and SOCWL, they must be broadcast in combination with RSD (Revocation Signaling Data) table which specifies the last versions of SOCRL and SOCWL and their location in the DSM-CC data carousel. The RSD also must be signed.
Enhanced MMI[edit]
A CI+ compliant Host device must also implement MHEG-5 interactive TV engine to manage navigation of the user within an interactive TV application, using its device remote control.[6] Support of MHP or HbbTV interactive TV engines is optional.
Operators (partial list)[edit]
The following operators have currently rolled out CI+ support or plan to do so:
- Albania
- Bulgaria
- Blizoo - launched CI+ in 2014
- Belgium
- Telenet – launched CI+ in June 2013[7]
- VOO - launched CI+ in September 2015
- Croatia
- evotv - launched CI+ v1.3
- France
- Canal+ – launched the 'Canal Ready' label for devices able to receive Canal+ channel
- Germany
- HD+,
- Kabel Deutschland,
- KBW,
- Sky Deutschland,
- Italy
- Mediaset Premium (Digital terrestrial television) - needs CI+ slot on HD television to descramble High Definition channel Premium Calcio HD.
- Luxembourg
- Netherlands
- Caiway – launched CI+ in October 2009[8][9]
- Delta NV – launched CI+ in 2010
- Kabel Noord – launched CI+ in 2010
- Ziggo – launched CI+ in September 2009 (2011 in former UPC areas), SMiT and Neotion CAM modules are used[10]
- Poland
- Romania
- UPC Romania (now Vodafone) - launched CI+ in April 2012
- RCS & RDS (Digi TV) - Starting November 2013
- Focus Sat - Starting March 2020, previously compatible with 3rd party CIv1 Conax modules
- Telekom (formely Romtelecom/Dolce)
- Russia
- Spain
- Sweden
- Switzerland
- UPC Cablecom – Starting June 2010[11]
- Turkey
- United Kingdom
- Top Up TV[12]
In July 2009 the largest Cable operator in the Netherlands, Ziggo, announced that it will support CI+ based Integrated Digital Television sets (IDTVs) actively.[13][14][15] In September 2009 the first batch of 15,000 SMiT (Shenzhen State Micro Technology Co., Ltd.) CI+ CAMs was offered by various Dutch retailers, followed in October 2009 by the first batch of Neotion CAMs.[16]Other supporters include Canal+,[17] and conditional access companies Irdeto[18] and Conax.[19]In 2009, NDS (now Cisco) announced that it will support Kabel Deutschland to deploy CI+ to its customers.[20] In 2014, CI+ CAMs with CiscoVideoGuard CA, manufactured by SMiT were deployed at D-Smart, KDG (Kabel Deutschland), KBW, Sky Deutschland, Tele Columbus etc.
Compatible TV sets (partial list)[edit]
- LG 2010 models all LD and LE series also MFT models MXX80D.
- Many of Samsung's new LCD, LCD LED and Plasma model variants with CI+ compatible motherboards, although there were some incompatibilities between TV and UPC and RCS-RDS CI+ modules, even with models certified by UPC and RCS-RDS. Some problems were solved by upgrading the firmware of the TV, other were solved by simply replacing ( in many cases under warranty ) the motherboard. Some Samsung models require an adaptor for non-standard CI module sockets.
- Many of Sony's new models including the Bravia W5500 series. Some older models needed a firmware update.
- Philips new 5000 and 9000 series LCD TVs (required firmware pending according to Ziggo).
- Panasonic early models (until early 2011) with CI+ slots needed a new firmware to be fully CI+ compatible. (Update 2010). All incompatibility problems were solved by software and firmware updates, or sometimes by using a CI+ card or module with other firmware. All models produced after early 2011 are fully compatible with CI+.
- Some Tesco Technika models.
- Many Vestel based TV sets. Newer Vestel based TV sets are marking the fact they are CI+ certified in their SHOP MODE ( or DEMO MODE ), which is mentioning, beside other features, the CI+ compatibility ( no matter DVB-T, DVB-C, DVB-S), or simply by a sticker attached on the front of the set. Sometimes, however in many cases, CI+ compatibility of the Vestel sets is mentioned on the package, beside other main features.
Embedded Common Interface[edit]
A new ETSI working group will be working on Embedded Common Interface (ECI).
Dvb T2 Receiver Mit Ci Slot Saturn
See also[edit]
- Conditional-access module (CAM)
References[edit]
- ^'Cabot Communications Ltd. CI+ Technical Paper'. Archived from the original on 2012-03-08. Retrieved 2013-07-10.
- ^'Führende TV-Hersteller vertrauen bei der Umsetzung des CI Plus-Standards in Europa auf TC TrustCenter (German)'(PDF). Archived from the original(PDF) on 2009-04-24. Retrieved 2013-07-10.
- ^10.48 Europe/London (2009-03-05). 'Digital TV Labs to test for CI Plus'. Broadbandtvnews.com. Retrieved 2013-07-10.
- ^10.55 Europe/London (2011-02-18). 'CI Plus back with the DVB'. Broadbandtvnews.com. Retrieved 2013-07-10.
- ^'Second generation DVB-CI standard published'. DVB. 2 November 2018.
- ^'CI PlusSpecification 1.3.1'(PDF). Archived from the original(PDF) on 2014-02-11. Retrieved 2014-08-28.
- ^[1]
- ^Caiway CI+ CAM (Dutch)Archived July 24, 2011, at the Wayback Machine
- ^08.54 Europe/London (2009-10-16). 'Caiway introduces CI Plus modules'. Broadbandtvnews.com. Retrieved 2013-07-10.
- ^'Digitale Televisie Module (Dutch)'. Ziggo.nl. 1970-01-01. Retrieved 2013-07-10.[permanent dead link]
- ^Cablecom makes access to digital TV in HD quality and Internet easier and cheaper
- ^'CI+ Landing'. Top Up TV. 2012-07-31. Retrieved 2013-07-10.
- ^Ziggo claims “world first” with CI Plus (visited July 7th 2009)
- ^Ziggo Approved SMiT CI+ CAM[dead link]
- ^After initial pioneering, ZIGGO and NEOTION are now further unleashing CI Plus momentum in the Digital Pay TV ecosystem[permanent dead link]
- ^13.31 Europe/London (2009-08-30). 'Ziggo starts supply of CI Plus CAMs'. Broadbandtvnews.com. Retrieved 2013-07-10.
- ^18.06 Europe/London (2009-04-27). 'Canal+ backs CI Plus with 'Canal Ready' label'. Broadbandtvnews.com. Retrieved 2013-07-10.
- ^'Iredeto press release'. Irdeto.com. Archived from the original on 2012-06-30. Retrieved 2013-07-10.
- ^11.28 Europe/London (2008-09-12). 'Conax announces CI+ support'. Broadbandtvnews.com. Retrieved 2013-07-10.
- ^08.45 Europe/London (2009-09-13). 'NDS to deliver CI+ to KDG'. Broadbandtvnews.com. Retrieved 2013-07-10.
External links[edit]
- Gerard O'Driscoll, The essential Guide to Digital Set-Boxes and Interactive TV, reprinted April 2000
- Jerry whitaker, Television Receivers, 2001
TBS5880 is a hybrid digital TV external box with both DVB-T2/T tuner and DVB-C tuner. You can use it for watching or recording digital terrestrial or cable TV on PC. The integrated CI support makes it possible to watch Pay TV(By inserting the correct CAM and subscription smartcard into the CI slot, premium channels will be available). The manufacturer provides Linux driver up to the latest kernel.
- 6Re-installing after a kernel upgrade
Overview/Features
- Watch Digital TV & listen to Radio on PC
- DVB-T2/T/C SD or HD TV Receiving
- Real Time and Scheduled Program Recording(PVR)
- Time Shifting to Pause Live TV
- Common Interface Support
Components Used
- DNOT44QCH266A
- CY7C68013
Identification
Device Descriptor:
Configuration Descriptor:bLength 9
Interface Descriptor:
Endpoint Descriptor:
Making it work
- Download driver zip from the manufacturer and unpack the files
- Extract linux-tbs-drivers.tar.bz2 archive:
- Go to driver package directory:
- We need to choose 32bit or 64bit for our drivers. Run
- ./v4l/tbs-x86.sh for 32bit;
- ./v4l/tbs-x86_r3.sh for 32bit running kernel 3.x
- ./v4l/tbs-x86_64.sh for 64bit.
- We're ready to build; add -j3 for a faster build on a dual core machine, -j5 on a quad core machine, etc.
- Build and install the driver:
Or for dual core machines
- Reboot in order to load the newly installed driver:
Drivers
Available here. Look for the TBS5880 Latest driver.
Note (2 dec 2012): These proprietary drivers were forked from the standard Linux DVB drivers around August 2011. And as such contain only old drivers for hardware other than from TBS.
Re-installing after a kernel upgrade
- cd to the linux-tbs-drivers directory that was created in the Making it Work section above.
- Clean out the previously built objects
- Choose 32bit or 64bit for our drivers again.
- ./v4l/tbs-x86.sh for 32bit
- ./v4l/tbs-x86_r3.sh for 32bit running kernel 3.x
- ./v4l/tbs-x86_64.sh for 64bit.
- Remove (or rename if you're paranoid) the config file; it will be regenerated automatically.
Dvb T2 Receiver Mit Ci Slot
- Build and install the modules
- Reboot your machine.
Sample Kernel Output
dvb-usb: no frontend was attached by 'TBS 5880 CI USB2.0'
- [ 160.019741] input: IR-receiver inside an USB DVB receiver as /devices/pci0000:00/0000:00:1d.7/usb1/1-7/input/input4
- [ 160.019828] dvb-usb: schedule remote query interval to 150 msecs.
- [ 160.019834] dvb-usb: TBS 5880 CI USB2.0 successfully initialized and connected.
- [ 160.019868] usbcore: registered new interface driver tbs5880
- [ 160.044480] dvb-usb: TBS 5880 CI USB2.0 successfully deinitialized and disconnected.
- [ 161.660020] usb 1-7: new high speed USB device number 4 using ehci_hcd
- [ 161.793006] dvb-usb: found a 'TBS 5880 CI USB2.0' in cold state, will try to load a firmware
- [ 161.796028] dvb-usb: downloading firmware from file 'dvb-usb-tbsqbox-id5880.fw'
- [ 161.799293] tbs5880: start downloading TBS5880 CI firmware
- [ 161.916027] dvb-usb: found a 'TBS 5880 CI USB2.0' in warm state.
- [ 161.916106] dvb-usb: will pass the complete MPEG2 transport stream to the software demuxer.
- [ 161.916224] DVB: registering new adapter (TBS 5880 CI USB2.0)
- [ 162.140206] dvb-usb: MAC address: 00:22:ab:b1:00:0d
- [ 162.169705] tbs5880: Attached TBS5880FE!
- [ 162.169708]
- [ 162.169934] tbs5880: CI initialized.
- [ 162.170205] tbs5880: CI disabled.
- [ 162.170210] DVB: registering adapter 0 frontend 0 (TurboSight TBS 5880 DVBT/T2 frontend)...
- [ 162.170546] input: IR-receiver inside an USB DVB receiver as /devices/pci0000:00/0000:00:1d.7/usb1/1-7/input/input5
- [ 162.170607] dvb-usb: schedule remote query interval to 150 msecs.
- [ 162.170612] dvb-usb: TBS 5880 CI USB2.0 successfully initialized and connected.