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ts_fns.h
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ts_fns.h
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/*
* Functions for working with H.222 Transport Stream packets - in particular,
* for writing PES packets.
*
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is the MPEG TS, PS and ES tools.
*
* The Initial Developer of the Original Code is Amino Communications Ltd.
* Portions created by the Initial Developer are Copyright (C) 2008
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Amino Communications Ltd, Swavesey, Cambridge UK
*
* ***** END LICENSE BLOCK *****
*/
#ifndef _ts_fns
#define _ts_fns
#include "compat.h"
#include "h222_defns.h"
#include "tswrite_defns.h"
#include "pidint_defns.h"
#include "ts_defns.h"
// ============================================================
// Writing a Transport Stream
// ============================================================
/*
* Write out a Transport Stream PAT and PMT.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `transport_stream_id` is the id for this particular transport stream.
* - `program_number` is the program number to use for the PID.
* - `pmt_pid` is the PID for the PMT.
* - `pid` is the PID of the stream to enter in the tables. This is also
* used as the PCR PID.
* - `stream_type` is the type of stream. MPEG-2 video is 0x01,
* MPEG-4/AVC (H.264) is 0x1b.
*
* Since we're outputting a TS representing a single ES, we only need to
* support a single program stream, containing a single PID.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_TS_program_data(TS_writer_p output,
uint32_t transport_stream_id,
uint32_t program_number,
uint32_t pmt_pid,
uint32_t pid,
byte stream_type);
/*
* Write out a Transport Stream PAT and PMT, for multiple streams.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `transport_stream_id` is the id for this particular transport stream.
* - `program_number` is the program number to use for the PMT PID.
* - `pmt_pid` is the PID for the PMT.
* - `pcr_pid` is the PID that contains the PCR.
* - `num_progs` is how many program streams are to be defined.
* - `prog_pid` is an array of audio/video PIDs
* - `prog_type` is an array of the corresponding stream types
*
* Note that if `num_progs` is 0, `pcr_pid` is ignored.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_TS_program_data2(TS_writer_p output,
uint32_t transport_stream_id,
uint32_t program_number,
uint32_t pmt_pid,
uint32_t pcr_pid,
int num_progs,
uint32_t prog_pid[],
byte prog_type[]);
/*
* Write out a Transport Stream PAT.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `transport_stream_id` is the id for this particular transport stream.
* - `prog_list` is a PIDINT list of program number / PID pairs.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_pat(TS_writer_p output,
uint32_t transport_stream_id,
pidint_list_p prog_list);
/*
* Write out a Transport Stream PMT, given a PMT datastructure
*
* - `output` is the TS output context returned by `tswrite_open`
* - `pmt_pid` is the PID for the PMT.
* - 'pmt' is the datastructure containing the PMT information
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_pmt(TS_writer_p output,
uint32_t pmt_pid,
pmt_p pmt);
/*
* Write out a Transport Stream PAT and PMT, given the appropriate
* datastructures
*
* - `output` is the TS output context returned by `tswrite_open`
* - `transport_stream_id` is the id for this particular transport stream.
* - `prog_list` is a PIDINT list of program number / PID pairs.
* - `pmt_pid` is the PID for the PMT.
* - 'pmt' is the datastructure containing the PMT information
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_pat_and_pmt(TS_writer_p output,
uint32_t transport_stream_id,
pidint_list_p prog_list,
uint32_t pmt_pid,
pmt_p pmt);
/*
* Write out a Transport Stream PAT, for a single program.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `transport_stream_id` is the id for this particular transport stream.
* - `program_number` is the program number to use for the PID.
* - `pmt_pid` is the PID for the PMT.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_single_program_pat(TS_writer_p output,
uint32_t transport_stream_id,
uint32_t program_number,
uint32_t pmt_pid);
/*
* Write out our ES data as a Transport Stream PES packet.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `data` is our ES data (e.g., a NAL unit)
* - `data_len` is its length
* - `pid` is the PID to use for this TS packet
* - `stream_id` is the PES packet stream id to use (e.g.,
* DEFAULT_VIDEO_STREAM_ID)
*
* If the data to be written is more than 65535 bytes long (i.e., the
* length will not fit into 2 bytes), then the PES packet written will
* have PES_packet_length set to zero (see ISO/IEC 13818-1 (H.222.0)
* 2.4.3.7, Semantic definitions of fields in PES packet). This is only
* allowed for video streams.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_ES_as_TS_PES_packet(TS_writer_p output,
byte data[],
uint32_t data_len,
uint32_t pid,
byte stream_id);
/*
* Write out our ES data as a Transport Stream PES packet, with PTS and/or DTS
* if we've got them, and some attempt to write out a sensible PCR.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `data` is our ES data (e.g., a NAL unit)
* - `data_len` is its length
* - `pid` is the PID to use for this TS packet
* - `stream_id` is the PES packet stream id to use (e.g.,
* DEFAULT_VIDEO_STREAM_ID)
* - `got_pts` is TRUE if we have a PTS value, in which case
* - `pts` is said PTS value
* - `got_dts` is TRUE if we also have DTS, in which case
* - `dts` is said DTS value.
*
* We also want to try to write out a sensible PCR value.
*
* PTS can go up as well as down (it is the time at which the next frame
* should be presented to the user, but frames do not necessarily occur
* in presentation order).
*
* DTS only goes up, since it is the time that the frame should be decoded.
*
* Thus, if we have it, the DTS is sensible to use for the PCR...
*
* If the data to be written is more than 65535 bytes long (i.e., the
* length will not fit into 2 bytes), then the PES packet written will
* have PES_packet_length set to zero (see ISO/IEC 13818-1 (H.222.0)
* 2.4.3.7, Semantic definitions of fields in PES packet). This is only
* allowed for video streams.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_ES_as_TS_PES_packet_with_pts_dts(TS_writer_p output,
byte data[],
uint32_t data_len,
uint32_t pid,
byte stream_id,
int got_pts,
uint64_t pts,
int got_dts,
uint64_t dts);
/*
* Write out our ES data as a Transport Stream PES packet, with PCR.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `data` is our ES data (e.g., a NAL unit)
* - `data_len` is its length
* - `pid` is the PID to use for this TS packet
* - `stream_id` is the PES packet stream id to use (e.g.,
* DEFAULT_VIDEO_STREAM_ID)
* - `pcr_base` and `pcr_extn` encode the PCR value.
*
* If the data to be written is more than 65535 bytes long (i.e., the
* length will not fit into 2 bytes), then the PES packet written will
* have PES_packet_length set to zero (see ISO/IEC 13818-1 (H.222.0)
* 2.4.3.7, Semantic definitions of fields in PES packet). This is only
* allowed for video streams.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_ES_as_TS_PES_packet_with_pcr(TS_writer_p output,
byte data[],
uint32_t data_len,
uint32_t pid,
byte stream_id,
uint64_t pcr_base,
uint32_t pcr_extn);
/*
* Write out a PES packet's data as a Transport Stream PES packet.
*
* - `output` is the TS output context returned by `tswrite_open`
* - `data` is our PES data (e.g., a program stream video data packet)
* - `data_len` is its length
* - `pid` is the PID to use for this TS packet
* - `stream_id` is the PES packet stream id to use (e.g.,
* DEFAULT_VIDEO_STREAM_ID)
* - `got_pcr` is TRUE if we have values for the PCR in this packet,
* in which case `pcr_base` and `pcr_extn` are the parts of the PCR.
*
* If the data to be written is more than 65535 bytes long (i.e., the
* length will not fit into 2 bytes), then the PES packet written will
* have PES_packet_length set to zero (see ISO/IEC 13818-1 (H.222.0)
* 2.4.3.7, Semantic definitions of fields in PES packet). This is only
* allowed for video streams.
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_PES_as_TS_PES_packet(TS_writer_p output,
byte data[],
uint32_t data_len,
uint32_t pid,
byte stream_id,
int got_pcr,
uint64_t pcr_base,
uint32_t pcr_extn);
/*
* Write out a Transport Stream Null packet.
*
* - `output` is the TS output context returned by `tswrite_open`
*
* Returns 0 if it worked, 1 if something went wrong.
*/
extern int write_TS_null_packet(TS_writer_p output);
// ============================================================
// Reading a Transport Stream
// ============================================================
// ------------------------------------------------------------
// File handling
// ------------------------------------------------------------
/*
* Build a TS packet reader, including its read-ahead buffer
*
* - `file` is the file that the TS packets will be read from
*
* Returns 0 if all goes well, 1 if something goes wrong.
*/
extern int build_TS_reader(int file,
TS_reader_p *tsreader);
/*
* Build a TS packet reader using the given functions as read() and seek().
*
* Returns 0 on success, 1 on failure.
*/
extern int build_TS_reader_with_fns(void *handle,
int (*read_fn)(void *, byte *, size_t),
int (*seek_fn)(void *, offset_t),
TS_reader_p *tsreader);
/*
* Open a file to read TS packets from.
*
* If `filename` is NULL, then the input will be taken from standard input.
*
* Returns 0 if all goes well, 1 if something goes wrong.
*/
extern int open_file_for_TS_read(char *filename,
TS_reader_p *tsreader);
/*
* Free a TS packet read-ahead buffer
*
* Sets `buffer` to NULL.
*/
extern void free_TS_reader(TS_reader_p *tsreader);
/*
* Free a TS packet read-ahead buffer and close the referenced file
* (if it is not standard input).
*
* Sets `buffer` to NULL, whether the file close succeeds or not.
*
* Returns 0 if all goes well, 1 if something goes wrong.
*/
extern int close_TS_reader(TS_reader_p *tsreader);
/*
* Seek to a given offset in the TS reader's file
*
* (This should be used in preference to just seeking on the "bare" file
* since it also unsets the read-ahead buffer. However, it is still just
* a wrapper around `seek_file`.)
*
* It is assumed (but not checked) that the seek will end up at an appropriate
* offset for reading a TS packet - i.e., presumably some multiple of
* TS_PACKET_SIZE.
*
* Returns 0 if all goes well, 1 if something goes wrong
*/
extern int seek_using_TS_reader(TS_reader_p tsreader,
offset_t posn);
/*
* Read the (rest of the) first TS packet, given its first four bytes
*
* This is intended for use after inspecting the first four bytes of the
* input file, to determine if the file is TS or PS.
*
* - `tsreader` is the TS packet reading context
* - `start` is the first four bytes of the file
* - `packet` is (a pointer to) the resultant TS packet.
*
* This is a pointer into the reader's read-ahead buffer, and so should not
* be freed. Note that this means that it may not persist after another call
* of this function (and will not persist after a call of
* `free_TS_reader`).
*
* Note that the caller is trusted to call this only when appropriate.
*
* Returns 0 if all goes well, EOF if end of file was read, or 1 if some
* other error occurred (in which case it will already have output a message
* on stderr about the problem).
*/
extern int read_rest_of_first_TS_packet(TS_reader_p tsreader,
byte start[4],
byte **packet);
/*
* Read the next TS packet.
*
* - `tsreader` is the TS packet reading context
* - `packet` is (a pointer to) the resultant TS packet.
*
* This is a pointer into the reader's read-ahead buffer, and so should not
* be freed. Note that this means that it may not persist after another call
* of this function (and will not persist after a call of
* `free_TS_reader`).
*
* Returns 0 if all goes well, EOF if end of file was read, or 1 if some
* other error occurred (in which case it will already have output a message
* on stderr about the problem).
*/
extern int read_next_TS_packet(TS_reader_p tsreader,
byte **packet);
// ------------------------------------------------------------
// Reading a transport stream with buffered timing
// Keeps a PCR in hand, so that it has accurate timing information
// for each TS packet
// ------------------------------------------------------------
/* Set up the the "looping" buffered TS packet reader and let it know what its
* PCR PID is.
*
* This must be called before any other _buffered_TS_packet function.
*
* - `pcr_pid` is the PID within which we should look for PCR entries
*
* Returns 0 if all went well, 1 if something went wrong (allocating space
* for the TS PCR buffer).
*/
extern int prime_read_buffered_TS_packet(TS_reader_p tsreader,
uint32_t pcr_pid);
/* Retrieve the first TS packet from the PCR read-ahead buffer,
* complete with its calculated PCR time.
*
* prime_read_buffered_TS_packet() must have been called before this.
*
* This should be called the first time a TS packet is to be read
* using the PCR read-ahead buffer. It "primes" the read-ahead mechanism
* by performing the first actual read-ahead.
*
* - `pcr_pid` is the PID within which we should look for PCR entries
* - `start_count` is the index of the current (last read) TS entry (which will
* generally be the PMT).
* - `data` returns a pointer to the TS packet data
* - `pid` is its PID
* - `pcr` is its PCR, calculated using the previous known PCR and
* the following known PCR.
* - `count` is the index of the returned TS packet in the file
*
* Note that, like read_next_TS_packet, we return a pointer to our data,
* and, similarly, warn that it will go away next time this function
* is called.
*
* Returns 0 if all went well, 1 if something went wrong, EOF if EOF was read.
*/
extern int read_first_TS_packet_from_buffer(TS_reader_p tsreader,
uint32_t pcr_pid,
uint32_t start_count,
byte *data[TS_PACKET_SIZE],
uint32_t *pid,
uint64_t *pcr,
uint32_t *count);
/* Retrieve the next TS packet from the PCR read-ahead buffer,
* complete with its calculated PCR time.
*
* - `data` returns a pointer to the TS packet data
* - `pid` is its PID
* - `pcr` is its PCR, calculated using the previous known PCR and
* the following known PCR.
*
* Note that, like read_next_TS_packet, we return a pointer to our data,
* and, similarly, warn that it might go away next time this function
* is called.
*
* Returns 0 if all went well, 1 if something went wrong, EOF if EOF was read.
*/
extern int read_next_TS_packet_from_buffer(TS_reader_p tsreader,
byte *data[TS_PACKET_SIZE],
uint32_t *pid,
uint64_t *pcr);
/*
* Read the next TS packet, coping with looping, etc.
*
* prime_read_buffered_TS_packet() should have been called first.
*
* This is a convenience wrapper around read_first_TS_packet_from_buffer()
* and read_next_TS_packet_from_buffer().
*
* This differs from ``read_TS_packet`` in that it assumes that the
* underlying code will already have read to the next PCR, so that
* it can know the *actual* (PCR-based) time for each TS packet.
*
* - `tsreader` is the TS reader context
* - `count` is a running count of TS packets read from this input
* - `data` is a pointer to the data for the packet
* - `pid` is the PID of the TS packet
* - `pcr` is the PCR value (possibly calculated) for this TS packet
* - if `max` is greater than zero, then at most `max` TS packets should
* be read from the input
* - if `loop`, play the input file repeatedly (up to `max` TS packets
* if applicable) - i.e., rewind to `start_posn` and start again if
* `count` reaches `max` (obviously only if `max` is greater than zero).
* - `start_count` is the value `count` should have after we've looped back
* to `start_posn`
* - if `quiet` is true, then only error messages should be written out
*
* Returns 0 if all went well, 1 if something went wrong, EOF if `loop` is
* false and either EOF was read, or `max` TS packets were read.
*/
extern int read_buffered_TS_packet(TS_reader_p tsreader,
uint32_t *count,
byte *data[TS_PACKET_SIZE],
uint32_t *pid,
uint64_t *pcr,
int max,
int loop,
offset_t start_posn,
uint32_t start_count,
int quiet);
// ------------------------------------------------------------
// Packet interpretation
// ------------------------------------------------------------
/*
* Retrieve the PCR (if any) from a TS packet's adaptation field
*
* - `adapt` is the adaptation field content
* - `adapt_len` is its length
* - `got_PCR` is TRUE if the adaptation field contains a PCR
* - `pcr` is then the PCR value itself
*/
extern void get_PCR_from_adaptation_field(byte adapt[],
int adapt_len,
int *got_pcr,
uint64_t *pcr);
/*
* Report on the contents of this TS packet's adaptation field
*
* - `adapt` is the adaptation field content
* - `adapt_len` is its length
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern void report_adaptation_field(byte adapt[],
int adapt_len);
/*
* Report on the timing information from this TS packet's adaptation field
*
* - if `times` is non-NULL, then timing information (derived from the PCR)
* will be calculated and reported
* - `adapt` is the adaptation field content
* - `adapt_len` is its length
* - `packet_count` is a count of how many TS packets up to now
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern void report_adaptation_timing(timing_p times,
byte adapt[],
int adapt_len,
int packet_count);
/*
* Report on the contents of this TS packet's payload. The packet is assumed
* to have a payload that is (part of) a PES packet.
*
* - if `show_data` then the data for the PES packet will also be shown
* - `stream_type` is the stream type of the data, or -1 if it is not
* known
* - `payload` is the payload of the TS packet. We know it can't be more
* than 184 bytes long, because of the packet header bytes.
* - regardless, `payload_len` is the actual length of the payload.
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern void report_payload(int show_data,
int stream_type,
byte payload[MAX_TS_PAYLOAD_SIZE],
int payload_len,
int payload_unit_start_indicator);
/*
* Print out information about program descriptors
* (either from the PMT program info, or the PMT/stream ES info)
*
* - if `is_msg` then print as a message, otherwise as an error
* - `leader1` and `leader2` are the text to write at the start of each line
* (either or both may be NULL)
* - `desc_data` is the data containing the descriptors
* - `desc_data_len` is its length
*
* Returns 0 if all went well, 1 if something went wrong
*/
extern int print_descriptors(int is_msg,
char *leader1,
char *leader2,
byte *desc_data,
int desc_data_len);
/*
* Extract the program list from a PAT packet (PID 0x0000).
*
* Handles the result of calling build_psi_data() for this PAT.
*
* - if `verbose`, then report on what we're doing
* - `payload` is the payload of the TS packet. We know it can't be more
* than 184 bytes long, because of the packet header bytes.
* - regardless, `payload_len` is the actual length of the payload.
* - `prog_list` is the list of program numbers versus PIDs.
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern int extract_prog_list_from_pat(int verbose,
byte payload[MAX_TS_PAYLOAD_SIZE],
int payload_len,
pidint_list_p *prog_list);
/*
* Extract the stream list (and PCR PID) from a PMT packet.
*
* Handles the result of calling build_psi_data() for this PMT.
*
* - if `verbose`, then report on what we're doing
* - `payload` is the payload of the TS packet. We know it can't be more
* than 184 bytes long, because of the packet header bytes.
* - regardless, `payload_len` is the actual length of the payload.
* - `pid` is the PID of this TS packet.
* - `program_number` is the program number.
* - `pcr_pid` is the PID of packets containing the PCR, or 0.
* - `stream_list` is a list of stream versus PID.
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern int extract_stream_list_from_pmt(int verbose,
byte payload[MAX_TS_PAYLOAD_SIZE],
int payload_len,
uint32_t pid,
int *program_number,
uint32_t *pcr_pid,
pidint_list_p *stream_list);
/*
* Given a TS packet, extract the (next bit of) a PAT/PMT's data.
*
* - if `verbose`, then report on what we're doing
* - `payload` is the payload of the current TS packet. We know it can't be
* more than 184 bytes long, because of the packet header bytes.
* - regardless, `payload_len` is the actual length of the payload.
* - `pid` is the PID of this TS packet.
* - `data` is the data array for the whole of the data of this PSI.
* If it is passed as NULL, then the TS packet must be the first for
* this PSI, and this function will malloc an array of the appropriate
* length (and return it here). If it is non-NULL, then it is partially
* full.
* - `data_len` is the actual length of the `data` array -- if `data` is NULL
* then this will be set by the function.
* - `data_used` is how many bytes of data are already in the `data` array.
* This will be updated by this function - if it is returned as equal to
* `data_len`, then the PMT packet data is complete.
*
* Usage:
*
* If a PSI packet has PUSI set, then it is the first packet of said PSI
* (which, for our purposes, means PAT or PMT). If it does not, then it
* is a continuation. If PUSI was set, call this with ``data`` NULL, otherwise
* pass it some previous data to continue.
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern int build_psi_data(int verbose,
byte payload[MAX_TS_PAYLOAD_SIZE],
int payload_len,
uint32_t pid,
byte **data,
int *data_len,
int *data_used);
/*
* Extract the program map table from a PMT packet.
*
* Assumes that the whole content of the PMT is in this single packet.
*
* - `data` is the data for the PMT packet.
* - `data_len` is the length of said data.
* - `pid` is the PID of this PMT
* - `pmt` is the new PMT datastructure
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern int extract_pmt(int verbose,
byte data[],
int data_len,
uint32_t pid,
pmt_p *pmt);
/*
* Split a TS packet into its main parts
*
* - `buf` is the data for the packet
* - `pid` is the PID of said data
* - `payload_unit_start_indicator` is TRUE if any payload in this
* packet forms the start of a PES packet. Its meaning is not significant
* if there is no payload, or if the payload is not (part of) a PES packet.
* - `adapt` is an offset into `buf`, acting as an array of the actual
* adaptation control bytes. It will be NULL if there are no adaptation
* controls.
* - `adapt_len` is the length of the adaptation controls (i.e., the
* number of bytes). It will be 0 if there are no adaptation controls.
* - `payload` is an offset into `buf`, acting as an array of the actual
* payload bytes. It will be NULL if there is no payload.
* - `payload_len` is the length of the payload *in this packet* (i.e., the
* number of bytes. It will be 0 if there is no payload.
*
* Returns 0 if all went well, 1 if something went wrong.
*/
extern int split_TS_packet(byte buf[TS_PACKET_SIZE],
uint32_t *pid,
int *payload_unit_start_indicator,
byte *adapt[],
int *adapt_len,
byte *payload[],
int *payload_len);
/*
* Return the next TS packet, as payload and adaptation controls.
*
* This is a convenience wrapping of `read_next_TS_packet` and
* `split_TS_packet`. Because of this, the data referenced by `adapt` and
* `payload` will generally not persist over further calls of this function
* and `read_next_TS_packet`, as it is held within the TS reader's read-ahead
* buffer.
*
* - `tsreader` is the TS packet reading context
* - `pid` is the PID of said data
* - `payload_unit_start_indicator` is TRUE if any payload in this
* packet forms the start of a PES packet. Its meaning is not significant
* if there is no payload, or if the payload is not (part of) a PES packet.
* - `adapt` is an offset into `buf`, acting as an array of the actual
* adaptation control bytes. It will be NULL if there are no adaptation
* controls.
* - `adapt_len` is the length of the adaptation controls (i.e., the
* number of bytes). It will be 0 if there are no adaptation controls.
* - `payload` is an offset into `buf`, acting as an array of the actual
* payload bytes. It will be NULL if there is no payload.
* - `payload_len` is the length of the payload *in this packet* (i.e., the
* number of bytes. It will be 0 if there is no payload.
*
* Returns 0 if all went well, EOF if there is no more data, 1 if something
* went wrong.
*/
extern int get_next_TS_packet(TS_reader_p tsreader,
uint32_t *pid,
int *payload_unit_start_indicator,
byte *adapt[],
int *adapt_len,
byte *payload[],
int *payload_len);
/*
* Find the first (next) PAT.
*
* - `tsreader` is the TS packet reading context
* - if `max` is non-zero, then it is the maximum number of TS packets to read
* - if `verbose` is true, then output extra information
* - if `quiet` is true, then don't output normal informational messages
* - `num_read` is the number of packets read to find the PAT (or before
* giving up)
* - `prog_list` is the program list from the PAT, or NULL if none was found
*
* Returns 0 if all went well, EOF if no PAT was found,
* 1 if something else went wrong.
*/
extern int find_pat(TS_reader_p tsreader,
int max,
int verbose,
int quiet,
int *num_read,
pidint_list_p *prog_list);
/*
* Find the next PMT, and report on it.
*
* - `tsreader` is the TS packet reading context
* - `pmt_pid` is the PID of the PMT we are looking for
* - if `program_number` is -1, then any PMT with that PID is acceptable,
* otherwise we're only interested in a PMT with that PID and the given
* program number.
* - if `max` is non-zero, then it is the maximum number of TS packets to read
* - if `verbose` is true, then output extra information
* - if `quiet` is true, then don't output normal informational messages
* - `num_read` is the number of packets read to find the PMT (or before
* giving up)
* - `pmt` is a new datastructure representing the PMT found
*
* Returns 0 if all went well, EOF if no PMT was found,
* 1 if something else went wrong.
*/
extern int find_next_pmt(TS_reader_p tsreader,
uint32_t pmt_pid,
int program_number,
int max,
int verbose,int quiet,
int *num_read,
pmt_p *pmt);
/*
* Find the next PAT, and from that the next PMT.
*
* Looks for the next PAT in the input stream, and then for the first
* PMT thereafter. If there is more than one program stream in the PAT,
* it looks for the PMT for the first.
*
* - `tsreader` is the TS packet reading context
* - if `max` is non-zero, then it is the maximum number of TS packets to read
* - if `verbose` is true, then output extra information
* - if `quiet` is true, then don't output normal informational messages
* - `num_read` is the number of packets read to find the PMT (or before
* giving up)
* - `pmt` is a new datastructure containing the information from the PMT.
*
* Returns 0 if all went well, EOF if no PAT or PMT was found (and thus
* no program stream), -2 if a PAT was found but it did not contain any
* programs, 1 if something else went wrong.
*/
extern int find_pmt(TS_reader_p tsreader,
const int req_prog_no,
int max,
int verbose,
int quiet,
int *num_read,
pmt_p *pmt);
#endif // _ts_fns
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