1. Introduction

1.1. What you need to know

The reader of this document is required to have some knowledge in the area of digital video broadcasting (Digital TV) 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 Digital TV standards documents are available for download at:

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

1.2. History

The first API for Digital TV 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 Digital TV cards and their new features like recording MPEG streams and filtering several section and PES data streams at the same time.

In early 2000, Convergence was approached by Nokia with a proposal for a new standard Linux Digital TV 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. With the Linux driver for the Siemens/Hauppauge DVB PCI card, Convergence provided a first implementation of the Linux Digital TV API. Convergence was the maintainer of the Linux Digital TV API in the early days.

Now, the API is maintained by the LinuxTV community (i.e. you, the reader of this document). The Linux Digital TV API is constantly reviewed and improved together with the improvements at the subsystem’s core at the Kernel.

1.3. Overview

dvbstb.svg

Components of a Digital TV card/STB

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

Frontend consisting of tuner and digital TV demodulator

Here the raw signal reaches the digital TV 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.

Note

Not every digital TV hardware provides conditional access hardware.

Demultiplexer which filters the incoming Digital TV MPEG-TS 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.

Audio and video decoder

The main targets of the demultiplexer are audio and video decoders. After decoding, they pass on the uncompressed audio and video to the computer screen or to a TV set.

Note

Modern hardware usually doesn’t have a separate decoder hardware, as such functionality can be provided by the main CPU, by the graphics adapter of the system or by a signal processing hardware embedded on a Systems on a Chip (SoC) integrated circuit.

It may also not be needed for certain usages (e.g. for data-only uses like “internet over satellite”).

Components of a Digital TV card/STB shows a crude schematic of the control and data flow between those components.

1.4. Linux Digital TV Devices

The Linux Digital TV 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 Digital TV 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 Digital TV 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.

1.5. API include files

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

#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.