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/*
* dmx.h
*
* Copyright (C) 2000 Marcus Metzler <marcus@convergence.de>
* & Ralph Metzler <ralph@convergence.de>
* for convergence integrated media GmbH
*
* Copyright (c) 2012-2013, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
* as published by the Free Software Foundation; either version 2.1
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
*/
#ifndef _DVBDMX_H_
#define _DVBDMX_H_
#include <linux/types.h>
#ifdef __KERNEL__
#include <linux/time.h>
#else
#include <time.h>
#endif
#define DMX_FILTER_SIZE 16
/* Min recording chunk upon which event is generated */
#define DMX_REC_BUFF_CHUNK_MIN_SIZE (100*188)
#define DMX_MAX_DECODER_BUFFER_NUM (32)
typedef enum
{
DMX_OUT_DECODER, /* Streaming directly to decoder. */
DMX_OUT_TAP, /* Output going to a memory buffer */
/* (to be retrieved via the read command).*/
DMX_OUT_TS_TAP, /* Output multiplexed into a new TS */
/* (to be retrieved by reading from the */
/* logical DVR device). */
DMX_OUT_TSDEMUX_TAP /* Like TS_TAP but retrieved from the DMX device */
} dmx_output_t;
typedef enum
{
DMX_IN_FRONTEND, /* Input from a front-end device. */
DMX_IN_DVR /* Input from the logical DVR device. */
} dmx_input_t;
typedef enum
{
DMX_PES_AUDIO0,
DMX_PES_VIDEO0,
DMX_PES_TELETEXT0,
DMX_PES_SUBTITLE0,
DMX_PES_PCR0,
DMX_PES_AUDIO1,
DMX_PES_VIDEO1,
DMX_PES_TELETEXT1,
DMX_PES_SUBTITLE1,
DMX_PES_PCR1,
DMX_PES_AUDIO2,
DMX_PES_VIDEO2,
DMX_PES_TELETEXT2,
DMX_PES_SUBTITLE2,
DMX_PES_PCR2,
DMX_PES_AUDIO3,
DMX_PES_VIDEO3,
DMX_PES_TELETEXT3,
DMX_PES_SUBTITLE3,
DMX_PES_PCR3,
DMX_PES_OTHER
} dmx_pes_type_t;
#define DMX_PES_AUDIO DMX_PES_AUDIO0
#define DMX_PES_VIDEO DMX_PES_VIDEO0
#define DMX_PES_TELETEXT DMX_PES_TELETEXT0
#define DMX_PES_SUBTITLE DMX_PES_SUBTITLE0
#define DMX_PES_PCR DMX_PES_PCR0
typedef struct dmx_filter
{
__u8 filter[DMX_FILTER_SIZE];
__u8 mask[DMX_FILTER_SIZE];
__u8 mode[DMX_FILTER_SIZE];
} dmx_filter_t;
/* Filter flags */
#define DMX_CHECK_CRC 0x01
#define DMX_ONESHOT 0x02
#define DMX_IMMEDIATE_START 0x04
#define DMX_KERNEL_CLIENT 0x8000
struct dmx_sct_filter_params
{
__u16 pid;
dmx_filter_t filter;
__u32 timeout;
__u32 flags;
};
enum dmx_video_codec {
DMX_VIDEO_CODEC_MPEG2,
DMX_VIDEO_CODEC_H264,
DMX_VIDEO_CODEC_VC1
};
/* Index entries types */
#define DMX_IDX_RAI 0x00000001
#define DMX_IDX_PUSI 0x00000002
#define DMX_IDX_MPEG_SEQ_HEADER 0x00000004
#define DMX_IDX_MPEG_GOP 0x00000008
#define DMX_IDX_MPEG_FIRST_SEQ_FRAME_START 0x00000010
#define DMX_IDX_MPEG_FIRST_SEQ_FRAME_END 0x00000020
#define DMX_IDX_MPEG_I_FRAME_START 0x00000040
#define DMX_IDX_MPEG_I_FRAME_END 0x00000080
#define DMX_IDX_MPEG_P_FRAME_START 0x00000100
#define DMX_IDX_MPEG_P_FRAME_END 0x00000200
#define DMX_IDX_MPEG_B_FRAME_START 0x00000400
#define DMX_IDX_MPEG_B_FRAME_END 0x00000800
#define DMX_IDX_H264_SPS 0x00001000
#define DMX_IDX_H264_PPS 0x00002000
#define DMX_IDX_H264_FIRST_SPS_FRAME_START 0x00004000
#define DMX_IDX_H264_FIRST_SPS_FRAME_END 0x00008000
#define DMX_IDX_H264_IDR_START 0x00010000
#define DMX_IDX_H264_IDR_END 0x00020000
#define DMX_IDX_H264_NON_IDR_START 0x00040000
#define DMX_IDX_H264_NON_IDR_END 0x00080000
#define DMX_IDX_VC1_SEQ_HEADER 0x00100000
#define DMX_IDX_VC1_ENTRY_POINT 0x00200000
#define DMX_IDX_VC1_FIRST_SEQ_FRAME_START 0x00400000
#define DMX_IDX_VC1_FIRST_SEQ_FRAME_END 0x00800000
#define DMX_IDX_VC1_FRAME_START 0x01000000
#define DMX_IDX_VC1_FRAME_END 0x02000000
struct dmx_pes_filter_params
{
__u16 pid;
dmx_input_t input;
dmx_output_t output;
dmx_pes_type_t pes_type;
__u32 flags;
/*
* The following configures when the event
* DMX_EVENT_NEW_REC_CHUNK will be triggered.
* When new recorded data is received with size
* equal or larger than this value a new event
* will be triggered. This is relevant when
* output is DMX_OUT_TS_TAP or DMX_OUT_TSDEMUX_TAP,
* size must be at least DMX_REC_BUFF_CHUNK_MIN_SIZE
* and smaller than buffer size.
*/
__u32 rec_chunk_size;
enum dmx_video_codec video_codec;
};
struct dmx_buffer_status {
/* size of buffer in bytes */
unsigned int size;
/* fullness of buffer in bytes */
unsigned int fullness;
/*
* How many bytes are free
* It's the same as: size-fullness-1
*/
unsigned int free_bytes;
/* read pointer offset in bytes */
unsigned int read_offset;
/* write pointer offset in bytes */
unsigned int write_offset;
/* non-zero if data error occurred */
int error;
};
/* Events associated with each demux filter */
enum dmx_event {
/* New PES packet is ready to be consumed */
DMX_EVENT_NEW_PES = 0x00000001,
/* New section is ready to be consumed */
DMX_EVENT_NEW_SECTION = 0x00000002,
/* New recording chunk is ready to be consumed */
DMX_EVENT_NEW_REC_CHUNK = 0x00000004,
/* New PCR value is ready */
DMX_EVENT_NEW_PCR = 0x00000008,
/* Overflow */
DMX_EVENT_BUFFER_OVERFLOW = 0x00000010,
/* Section was dropped due to CRC error */
DMX_EVENT_SECTION_CRC_ERROR = 0x00000020,
/* End-of-stream, no more data from this filter */
DMX_EVENT_EOS = 0x00000040,
/* New Elementary Stream data is ready */
DMX_EVENT_NEW_ES_DATA = 0x00000080,
/* Data markers */
DMX_EVENT_MARKER = 0x00000100,
/* New indexing entry is ready */
DMX_EVENT_NEW_INDEX_ENTRY = 0x00000200,
/*
* Section filter timer expired. This is notified
* when timeout is configured to section filter
* (dmx_sct_filter_params) and no sections were
* received for the given time.
*/
DMX_EVENT_SECTION_TIMEOUT = 0x00000400,
/* Scrambling bits change between clear and scrambled */
DMX_EVENT_SCRAMBLING_STATUS_CHANGE = 0x00000800
};
enum dmx_oob_cmd {
/* End-of-stream, no more data from this filter */
DMX_OOB_CMD_EOS,
/* Data markers */
DMX_OOB_CMD_MARKER,
};
/* Flags passed in filter events */
/* Continuity counter error was detected */
#define DMX_FILTER_CC_ERROR 0x01
/* Discontinuity indicator was set */
#define DMX_FILTER_DISCONTINUITY_INDICATOR 0x02
/* PES length in PES header is not correct */
#define DMX_FILTER_PES_LENGTH_ERROR 0x04
/* PES info associated with DMX_EVENT_NEW_PES event */
struct dmx_pes_event_info {
/* Offset at which PES information starts */
__u32 base_offset;
/*
* Start offset at which PES data
* from the stream starts.
* Equal to base_offset if PES data
* starts from the beginning.
*/
__u32 start_offset;
/* Total length holding the PES information */
__u32 total_length;
/* Actual length holding the PES data */
__u32 actual_length;
/* Local receiver timestamp in 27MHz */
__u64 stc;
/* Flags passed in filter events */
__u32 flags;
/*
* Number of TS packets with Transport Error Indicator (TEI)
* found while constructing the PES.
*/
__u32 transport_error_indicator_counter;
/* Number of continuity errors found while constructing the PES */
__u32 continuity_error_counter;
/* Total number of TS packets holding the PES */
__u32 ts_packets_num;
};
/* Section info associated with DMX_EVENT_NEW_SECTION event */
struct dmx_section_event_info {
/* Offset at which section information starts */
__u32 base_offset;
/*
* Start offset at which section data
* from the stream starts.
* Equal to base_offset if section data
* starts from the beginning.
*/
__u32 start_offset;
/* Total length holding the section information */
__u32 total_length;
/* Actual length holding the section data */
__u32 actual_length;
/* Flags passed in filter events */
__u32 flags;
};
/* Recording info associated with DMX_EVENT_NEW_REC_CHUNK event */
struct dmx_rec_chunk_event_info {
/* Offset at which recording chunk starts */
__u32 offset;
/* Size of recording chunk in bytes */
__u32 size;
};
/* PCR info associated with DMX_EVENT_NEW_PCR event */
struct dmx_pcr_event_info {
/* Local timestamp in 27MHz
* when PCR packet was received
*/
__u64 stc;
/* PCR value in 27MHz */
__u64 pcr;
/* Flags passed in filter events */
__u32 flags;
};
/*
* Elementary stream data information associated
* with DMX_EVENT_NEW_ES_DATA event
*/
struct dmx_es_data_event_info {
/* Buffer user-space handle */
int buf_handle;
/*
* Cookie to provide when releasing the buffer
* using the DMX_RELEASE_DECODER_BUFFER ioctl command
*/
int cookie;
/* Offset of data from the beginning of the buffer */
__u32 offset;
/* Length of data in buffer (in bytes) */
__u32 data_len;
/* Indication whether PTS value is valid */
int pts_valid;
/* PTS value associated with the buffer */
__u64 pts;
/* Indication whether DTS value is valid */
int dts_valid;
/* DTS value associated with the buffer */
__u64 dts;
/* STC value associated with the buffer in 27MHz */
__u64 stc;
/*
* Number of TS packets with Transport Error Indicator (TEI) set
* in the TS packet header since last reported event
*/
__u32 transport_error_indicator_counter;
/* Number of continuity errors since last reported event */
__u32 continuity_error_counter;
/* Total number of TS packets processed since last reported event */
__u32 ts_packets_num;
/*
* Number of dropped bytes due to insufficient buffer space,
* since last reported event
*/
__u32 ts_dropped_bytes;
};
/* Marker details associated with DMX_EVENT_MARKER event */
struct dmx_marker_event_info {
/* Marker id */
__u64 id;
};
/* Indexing information associated with DMX_EVENT_NEW_INDEX_ENTRY event */
struct dmx_index_event_info {
/* Index entry type, one of of DMX_IDX_* */
__u64 type;
/*
* The PID the index entry belongs to.
* In case of recording filter, multiple PIDs may exist in the same
* filter through DMX_ADD_PID ioctl and each can be indexed separately.
*/
__u16 pid;
/*
* The TS packet number in the recorded data at which
* the indexing event is found.
*/
__u64 match_tsp_num;
/*
* The TS packet number in the recorded data preceding
* match_tsp_num and has PUSI set.
*/
__u64 last_pusi_tsp_num;
/* STC associated with match_tsp_num, in 27MHz */
__u64 stc;
};
/* Scrambling information associated with DMX_EVENT_SCRAMBLING_STATUS_CHANGE */
struct dmx_scrambling_status_event_info {
/*
* The PID which its scrambling bit status changed.
* In case of recording filter, multiple PIDs may exist in the same
* filter through DMX_ADD_PID ioctl, each may have
* different scrambling bits status.
*/
__u16 pid;
/* old value of scrambling bits */
__u8 old_value;
/* new value of scrambling bits */
__u8 new_value;
};
/*
* Filter's event returned through DMX_GET_EVENT.
* poll with POLLPRI would block until events are available.
*/
struct dmx_filter_event {
enum dmx_event type;
union {
struct dmx_pes_event_info pes;
struct dmx_section_event_info section;
struct dmx_rec_chunk_event_info recording_chunk;
struct dmx_pcr_event_info pcr;
struct dmx_es_data_event_info es_data;
struct dmx_marker_event_info marker;
struct dmx_index_event_info index;
struct dmx_scrambling_status_event_info scrambling_status;
} params;
};
/* Filter's buffer requirement returned in dmx_caps */
struct dmx_buffer_requirement {
/* Buffer size alignment, 0 means no special requirement */
__u32 size_alignment;
/* Maximum buffer size allowed */
__u32 max_size;
/* Maximum number of linear buffers handled by demux */
__u32 max_buffer_num;
/* Feature support bitmap as detailed below */
__u32 flags;
/* Buffer must be allocated as physically contiguous memory */
#define DMX_BUFFER_CONTIGUOUS_MEM 0x1
/* If the filter's data is decrypted, the buffer should be secured one */
#define DMX_BUFFER_SECURED_IF_DECRYPTED 0x2
/* Buffer can be allocated externally */
#define DMX_BUFFER_EXTERNAL_SUPPORT 0x4
/* Buffer can be allocated internally */
#define DMX_BUFFER_INTERNAL_SUPPORT 0x8
/* Filter output can be output to a linear buffer group */
#define DMX_BUFFER_LINEAR_GROUP_SUPPORT 0x10
};
/* Out-of-band (OOB) command */
struct dmx_oob_command {
enum dmx_oob_cmd type;
union {
struct dmx_marker_event_info marker;
} params;
};
typedef struct dmx_caps {
__u32 caps;
/* Indicates whether demux support playback from memory in pull mode */
#define DMX_CAP_PULL_MODE 0x01
/* Indicates whether demux support indexing of recorded video stream */
#define DMX_CAP_VIDEO_INDEXING 0x02
/* Indicates whether demux support sending data directly to video decoder */
#define DMX_CAP_VIDEO_DECODER_DATA 0x04
/* Indicates whether demux support sending data directly to audio decoder */
#define DMX_CAP_AUDIO_DECODER_DATA 0x08
/* Indicates whether demux support sending data directly to subtitle decoder */
#define DMX_CAP_SUBTITLE_DECODER_DATA 0x10
/* Indicates whether TS insertion is supported */
#define DMX_CAP_TS_INSERTION 0x20
/* Number of decoders demux can output data to */
int num_decoders;
/* Number of demux devices */
int num_demux_devices;
/* Max number of PID filters */
int num_pid_filters;
/* Max number of section filters */
int num_section_filters;
/*
* Max number of section filters using same PID,
* 0 if not supported
*/
int num_section_filters_per_pid;
/*
* Length of section filter, not including section
* length field (2 bytes).
*/
int section_filter_length;
/* Max number of demod based input */
int num_demod_inputs;
/* Max number of memory based input */
int num_memory_inputs;
/* Overall bitrate from all inputs concurrently. Mbit/sec */
int max_bitrate;
/* Max bitrate from single demod input. Mbit/sec */
int demod_input_max_bitrate;
/* Max bitrate from single memory input. Mbit/sec */
int memory_input_max_bitrate;
struct dmx_buffer_requirement section;
/* For PES not sent to decoder */
struct dmx_buffer_requirement pes;
/* For PES sent to decoder */
struct dmx_buffer_requirement decoder;
/* Recording buffer for recording of 188 bytes packets */
struct dmx_buffer_requirement recording_188_tsp;
/* Recording buffer for recording of 192 bytes packets */
struct dmx_buffer_requirement recording_192_tsp;
/* DVR input buffer for playback of 188 bytes packets */
struct dmx_buffer_requirement playback_188_tsp;
/* DVR input buffer for playback of 192 bytes packets */
struct dmx_buffer_requirement playback_192_tsp;
} dmx_caps_t;
typedef enum {
DMX_SOURCE_FRONT0 = 0,
DMX_SOURCE_FRONT1,
DMX_SOURCE_FRONT2,
DMX_SOURCE_FRONT3,
DMX_SOURCE_DVR0 = 16,
DMX_SOURCE_DVR1,
DMX_SOURCE_DVR2,
DMX_SOURCE_DVR3
} dmx_source_t;
enum dmx_tsp_format_t {
DMX_TSP_FORMAT_188 = 0,
DMX_TSP_FORMAT_192_TAIL,
DMX_TSP_FORMAT_192_HEAD,
DMX_TSP_FORMAT_204,
};
enum dmx_playback_mode_t {
/*
* In push mode, if one of output buffers
* is full, the buffer would overflow
* and demux continue processing incoming stream.
* This is the default mode. When playing from frontend,
* this is the only mode that is allowed.
*/
DMX_PB_MODE_PUSH = 0,
/*
* In pull mode, if one of output buffers
* is full, demux stalls waiting for free space,
* this would cause DVR input buffer fullness
* to accumulate.
* This mode is possible only when playing
* from DVR.
*/
DMX_PB_MODE_PULL,
};
struct dmx_stc {
unsigned int num; /* input : which STC? 0..N */
unsigned int base; /* output: divisor for stc to get 90 kHz clock */
__u64 stc; /* output: stc in 'base'*90 kHz units */
};
enum dmx_buffer_mode {
/*
* demux buffers are allocated internally
* by the demux driver. This is the default mode.
* DMX_SET_BUFFER_SIZE can be used to set the size of
* this buffer.
*/
DMX_BUFFER_MODE_INTERNAL,
/*
* demux buffers are allocated externally and provided
* to demux through DMX_SET_BUFFER.
* When this mode is used DMX_SET_BUFFER_SIZE and
* mmap are prohibited.
*/
DMX_BUFFER_MODE_EXTERNAL,
};
struct dmx_buffer {
unsigned int size;
int handle;
};
struct dmx_decoder_buffers {
/*
* Specify if linear buffer support is requested. If set, buffers_num
* must be greater than 1
*/
int is_linear;
/*
* Specify number of external buffers allocated by user.
* If set to 0 means internal buffer allocation is requested
*/
__u32 buffers_num;
/* Specify buffer size, either external or internal */
__u32 buffers_size;
/* Array of externally allocated buffer handles */
int handles[DMX_MAX_DECODER_BUFFER_NUM];
};
struct dmx_secure_mode {
/*
* Specifies whether secure mode should be set or not for the filter's
* pid. Note that DMX_OUT_TSDEMUX_TAP filters can have more than 1 pid
*/
int is_secured;
/* PID to associate with key ladder id */
__u16 pid;
/* key ladder information to associate with the specified pid */
__u32 key_ladder_id;
};
struct dmx_events_mask {
/*
* Bitmask of events to be disabled (dmx_event).
* Disabled events will not be notified to the user.
* By default all events are enabled except for
* DMX_EVENT_NEW_ES_DATA.
* Overflow event can't be disabled.
*/
__u32 disable_mask;
/*
* Bitmask of events that will not wake-up the user
* when user calls poll with POLLPRI flag.
* Events that are used as wake-up source should not be
* disabled in disable_mask or they would not be used
* as a wake-up source.
* By default all enabled events are set as wake-up events.
* Overflow event can't be disabled as a wake-up source.
*/
__u32 no_wakeup_mask;
/*
* Number of ready wake-up events which will trigger
* a wake-up when user calls poll with POLLPRI flag.
* Default is set to 1.
*/
__u32 wakeup_threshold;
};
struct dmx_indexing_params {
/*
* PID to index. In case of recording filter, multiple PIDs
* may exist in the same filter through DMX_ADD_PID ioctl.
* It is assumed that the PID was already added using DMX_ADD_PID
* or an error will be reported.
*/
__u16 pid;
/* enable or disable indexing, default is disabled */
int enable;
/* combination of DMX_IDX_* bits */
__u64 types;
};
struct dmx_set_ts_insertion {
/*
* Unique identifier managed by the caller.
* This identifier can be used later to remove the
* insertion using DMX_ABORT_TS_INSERTION ioctl.
*/
__u32 identifier;
/*
* Repetition time in msec, minimum allowed value is 25msec.
* 0 repetition time means one-shot insertion is done.
* Insertion done based on wall-clock.
*/
__u32 repetition_time;
/*
* TS packets buffer to be inserted.
* The buffer is inserted as-is to the recording buffer
* without any modification.
* It is advised to set discontinuity flag in the very
* first TS packet in the buffer.
*/
const __u8 *ts_packets;
/*
* Size in bytes of the TS packets buffer to be inserted.
* Should be in multiples of 188 or 192 bytes
* depending on recording filter output format.
*/
size_t size;
};
struct dmx_abort_ts_insertion {
/*
* Identifier of the insertion buffer previously set
* using DMX_SET_TS_INSERTION.
*/
__u32 identifier;
};
struct dmx_scrambling_bits {
/*
* The PID to return its scrambling bit value.
* In case of recording filter, multiple PIDs may exist in the same
* filter through DMX_ADD_PID ioctl, each may have different
* scrambling bits status.
*/
__u16 pid;
/* Current value of scrambling bits: 0, 1, 2 or 3 */
__u8 value;
};
#define DMX_START _IO('o', 41)
#define DMX_STOP _IO('o', 42)
#define DMX_SET_FILTER _IOW('o', 43, struct dmx_sct_filter_params)
#define DMX_SET_PES_FILTER _IOW('o', 44, struct dmx_pes_filter_params)
#define DMX_SET_BUFFER_SIZE _IO('o', 45)
#define DMX_GET_PES_PIDS _IOR('o', 47, __u16[5])
#define DMX_GET_CAPS _IOR('o', 48, dmx_caps_t)
#define DMX_SET_SOURCE _IOW('o', 49, dmx_source_t)
#define DMX_GET_STC _IOWR('o', 50, struct dmx_stc)
#define DMX_ADD_PID _IOW('o', 51, __u16)
#define DMX_REMOVE_PID _IOW('o', 52, __u16)
#define DMX_SET_TS_PACKET_FORMAT _IOW('o', 53, enum dmx_tsp_format_t)
#define DMX_SET_TS_OUT_FORMAT _IOW('o', 54, enum dmx_tsp_format_t)
#define DMX_SET_DECODER_BUFFER_SIZE _IO('o', 55)
#define DMX_GET_BUFFER_STATUS _IOR('o', 56, struct dmx_buffer_status)
#define DMX_RELEASE_DATA _IO('o', 57)
#define DMX_FEED_DATA _IO('o', 58)
#define DMX_SET_PLAYBACK_MODE _IOW('o', 59, enum dmx_playback_mode_t)
#define DMX_GET_EVENT _IOR('o', 60, struct dmx_filter_event)
#define DMX_SET_BUFFER_MODE _IOW('o', 61, enum dmx_buffer_mode)
#define DMX_SET_BUFFER _IOW('o', 62, struct dmx_buffer)
#define DMX_SET_DECODER_BUFFER _IOW('o', 63, struct dmx_decoder_buffers)
#define DMX_REUSE_DECODER_BUFFER _IO('o', 64)
#define DMX_SET_SECURE_MODE _IOW('o', 65, struct dmx_secure_mode)
#define DMX_SET_EVENTS_MASK _IOW('o', 66, struct dmx_events_mask)
#define DMX_GET_EVENTS_MASK _IOR('o', 67, struct dmx_events_mask)
#define DMX_PUSH_OOB_COMMAND _IOW('o', 68, struct dmx_oob_command)
#define DMX_SET_INDEXING_PARAMS _IOW('o', 69, struct dmx_indexing_params)
#define DMX_SET_TS_INSERTION _IOW('o', 70, struct dmx_set_ts_insertion)
#define DMX_ABORT_TS_INSERTION _IOW('o', 71, struct dmx_abort_ts_insertion)
#define DMX_GET_SCRAMBLING_BITS _IOWR('o', 72, struct dmx_scrambling_bits)
#endif /*_DVBDMX_H_*/