Documentation/media/uapi/dvb/intro.rst - arm/linux - Git at Google

 .. -*- coding: utf-8; mode: rst -*-

 .. _dvb_introdution:

 ************
 Introduction
 ************


 .. _requisites:

 What you need to know
 =====================

 The reader of this document is required to have some knowledge in the
 area of digital video broadcasting (DVB) and should be familiar with
 part I of the MPEG2 specification ISO/IEC 13818 (aka ITU-T H.222), i.e
 you should know what a program/transport stream (PS/TS) is and what is
 meant by a packetized elementary stream (PES) or an I-frame.

 Various DVB standards documents are available from http://www.dvb.org
 and/or http://www.etsi.org.

 It is also necessary to know how to access unix/linux devices and how to
 use ioctl calls. This also includes the knowledge of C or C++.


 .. _history:

 History
 =======

 The first API for DVB cards we used at Convergence in late 1999 was an
 extension of the Video4Linux API which was primarily developed for frame
 grabber cards. As such it was not really well suited to be used for DVB
 cards and their new features like recording MPEG streams and filtering
 several section and PES data streams at the same time.

 In early 2000, we were approached by Nokia with a proposal for a new
 standard Linux DVB API. As a commitment to the development of terminals
 based on open standards, Nokia and Convergence made it available to all
 Linux developers and published it on https://linuxtv.org in September
 2000. Convergence is the maintainer of the Linux DVB API. Together with
 the LinuxTV community (i.e. you, the reader of this document), the Linux
 DVB API will be constantly reviewed and improved. With the Linux driver
 for the Siemens/Hauppauge DVB PCI card Convergence provides a first
 implementation of the Linux DVB API.


 .. _overview:

 Overview
 ========


 .. _stb_components:

 .. kernel-figure:: dvbstb.svg
     :alt:   dvbstb.svg
     :align: center

     Components of a DVB card/STB

 A DVB PCI card or DVB set-top-box (STB) usually consists of the
 following main hardware components:

 -  Frontend consisting of tuner and DVB demodulator

    Here the raw signal reaches the DVB hardware from a satellite dish or
    antenna or directly from cable. The frontend down-converts and
    demodulates this signal into an MPEG transport stream (TS). In case
    of a satellite frontend, this includes a facility for satellite
    equipment control (SEC), which allows control of LNB polarization,
    multi feed switches or dish rotors.

 -  Conditional Access (CA) hardware like CI adapters and smartcard slots

    The complete TS is passed through the CA hardware. Programs to which
    the user has access (controlled by the smart card) are decoded in
    real time and re-inserted into the TS.

 -  Demultiplexer which filters the incoming DVB stream

    The demultiplexer splits the TS into its components like audio and
    video streams. Besides usually several of such audio and video
    streams it also contains data streams with information about the
    programs offered in this or other streams of the same provider.

 -  MPEG2 audio and video decoder

    The main targets of the demultiplexer are the MPEG2 audio and video
    decoders. After decoding they pass on the uncompressed audio and
    video to the computer screen or (through a PAL/NTSC encoder) to a TV
    set.

 :ref:`stb_components` shows a crude schematic of the control and data
 flow between those components.

 On a DVB PCI card not all of these have to be present since some
 functionality can be provided by the main CPU of the PC (e.g. MPEG
 picture and sound decoding) or is not needed (e.g. for data-only uses
 like “internet over satellite”). Also not every card or STB provides
 conditional access hardware.


 .. _dvb_devices:

 Linux DVB Devices
 =================

 The Linux DVB API lets you control these hardware components through
 currently six Unix-style character devices for video, audio, frontend,
 demux, CA and IP-over-DVB networking. The video and audio devices
 control the MPEG2 decoder hardware, the frontend device the tuner and
 the DVB demodulator. The demux device gives you control over the PES and
 section filters of the hardware. If the hardware does not support
 filtering these filters can be implemented in software. Finally, the CA
 device controls all the conditional access capabilities of the hardware.
 It can depend on the individual security requirements of the platform,
 if and how many of the CA functions are made available to the
 application through this device.

 All devices can be found in the ``/dev`` tree under ``/dev/dvb``. The
 individual devices are called:

 -  ``/dev/dvb/adapterN/audioM``,

 -  ``/dev/dvb/adapterN/videoM``,

 -  ``/dev/dvb/adapterN/frontendM``,

 -  ``/dev/dvb/adapterN/netM``,

 -  ``/dev/dvb/adapterN/demuxM``,

 -  ``/dev/dvb/adapterN/dvrM``,

 -  ``/dev/dvb/adapterN/caM``,

 where N enumerates the DVB PCI cards in a system starting from 0, and M
 enumerates the devices of each type within each adapter, starting
 from 0, too. We will omit the “ ``/dev/dvb/adapterN/``\ ” in the further
 discussion of these devices.

 More details about the data structures and function calls of all the
 devices are described in the following chapters.


 .. _include_files:

 API include files
 =================

 For each of the DVB devices a corresponding include file exists. The DVB
 API include files should be included in application sources with a
 partial path like:


 .. code-block:: c

 	#include <linux/dvb/ca.h>

 	#include <linux/dvb/dmx.h>

 	#include <linux/dvb/frontend.h>

 	#include <linux/dvb/net.h>


 To enable applications to support different API version, an additional
 include file ``linux/dvb/version.h`` exists, which defines the constant
 ``DVB_API_VERSION``. This document describes ``DVB_API_VERSION 5.10``.
	.. -- coding: utf-8; mode: rst --

	.. _dvb_introdution:

	************
	Introduction
	************


	.. _requisites:

	What you need to know
	=====================

	The reader of this document is required to have some knowledge in the
	area of digital video broadcasting (DVB) and should be familiar with
	part I of the MPEG2 specification ISO/IEC 13818 (aka ITU-T H.222), i.e
	you should know what a program/transport stream (PS/TS) is and what is
	meant by a packetized elementary stream (PES) or an I-frame.

	Various DVB standards documents are available from http://www.dvb.org
	and/or http://www.etsi.org.

	It is also necessary to know how to access unix/linux devices and how to
	use ioctl calls. This also includes the knowledge of C or C++.


	.. _history:

	History
	=======

	The first API for DVB cards we used at Convergence in late 1999 was an
	extension of the Video4Linux API which was primarily developed for frame
	grabber cards. As such it was not really well suited to be used for DVB
	cards and their new features like recording MPEG streams and filtering
	several section and PES data streams at the same time.

	In early 2000, we were approached by Nokia with a proposal for a new
	standard Linux DVB API. As a commitment to the development of terminals
	based on open standards, Nokia and Convergence made it available to all
	Linux developers and published it on https://linuxtv.org in September
	2000. Convergence is the maintainer of the Linux DVB API. Together with
	the LinuxTV community (i.e. you, the reader of this document), the Linux
	DVB API will be constantly reviewed and improved. With the Linux driver
	for the Siemens/Hauppauge DVB PCI card Convergence provides a first
	implementation of the Linux DVB API.


	.. _overview:

	Overview
	========


	.. _stb_components:

	.. kernel-figure:: dvbstb.svg
	:alt: dvbstb.svg
	:align: center

	Components of a DVB card/STB

	A DVB PCI card or DVB set-top-box (STB) usually consists of the
	following main hardware components:

	- Frontend consisting of tuner and DVB demodulator

	Here the raw signal reaches the DVB hardware from a satellite dish or
	antenna or directly from cable. The frontend down-converts and
	demodulates this signal into an MPEG transport stream (TS). In case
	of a satellite frontend, this includes a facility for satellite
	equipment control (SEC), which allows control of LNB polarization,
	multi feed switches or dish rotors.

	- Conditional Access (CA) hardware like CI adapters and smartcard slots

	The complete TS is passed through the CA hardware. Programs to which
	the user has access (controlled by the smart card) are decoded in
	real time and re-inserted into the TS.

	- Demultiplexer which filters the incoming DVB stream

	The demultiplexer splits the TS into its components like audio and
	video streams. Besides usually several of such audio and video
	streams it also contains data streams with information about the
	programs offered in this or other streams of the same provider.

	- MPEG2 audio and video decoder

	The main targets of the demultiplexer are the MPEG2 audio and video
	decoders. After decoding they pass on the uncompressed audio and
	video to the computer screen or (through a PAL/NTSC encoder) to a TV
	set.

	:ref:`stb_components` shows a crude schematic of the control and data
	flow between those components.

	On a DVB PCI card not all of these have to be present since some
	functionality can be provided by the main CPU of the PC (e.g. MPEG
	picture and sound decoding) or is not needed (e.g. for data-only uses
	like “internet over satellite”). Also not every card or STB provides
	conditional access hardware.


	.. _dvb_devices:

	Linux DVB Devices
	=================

	The Linux DVB API lets you control these hardware components through
	currently six Unix-style character devices for video, audio, frontend,
	demux, CA and IP-over-DVB networking. The video and audio devices
	control the MPEG2 decoder hardware, the frontend device the tuner and
	the DVB demodulator. The demux device gives you control over the PES and
	section filters of the hardware. If the hardware does not support
	filtering these filters can be implemented in software. Finally, the CA
	device controls all the conditional access capabilities of the hardware.
	It can depend on the individual security requirements of the platform,
	if and how many of the CA functions are made available to the
	application through this device.

	All devices can be found in the ``/dev`` tree under ``/dev/dvb``. The
	individual devices are called:

	- ``/dev/dvb/adapterN/audioM``,

	- ``/dev/dvb/adapterN/videoM``,

	- ``/dev/dvb/adapterN/frontendM``,

	- ``/dev/dvb/adapterN/netM``,

	- ``/dev/dvb/adapterN/demuxM``,

	- ``/dev/dvb/adapterN/dvrM``,

	- ``/dev/dvb/adapterN/caM``,

	where N enumerates the DVB PCI cards in a system starting from 0, and M
	enumerates the devices of each type within each adapter, starting
	from 0, too. We will omit the “ ``/dev/dvb/adapterN/``\ ” in the further
	discussion of these devices.

	More details about the data structures and function calls of all the
	devices are described in the following chapters.


	.. _include_files:

	API include files
	=================

	For each of the DVB devices a corresponding include file exists. The DVB
	API include files should be included in application sources with a
	partial path like:


	.. code-block:: c

	#include <linux/dvb/ca.h>

	#include <linux/dvb/dmx.h>

	#include <linux/dvb/frontend.h>

	#include <linux/dvb/net.h>


	To enable applications to support different API version, an additional
	include file ``linux/dvb/version.h`` exists, which defines the constant
	``DVB_API_VERSION``. This document describes ``DVB_API_VERSION 5.10``.