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vdr/remux.h
Klaus Schmidinger 2db7397542 Version 2.1.7 
VDR developer version 2.1.7 is now available at

       ftp://ftp.tvdr.de/vdr/Developer/vdr-2.1.7.tar.bz2

A 'diff' against the previous version is available at

       ftp://ftp.tvdr.de/vdr/Developer/vdr-2.1.6-2.1.7.diff

MD5 checksums:

1c954bad31ce74cd1cbd7987e62d2a98  vdr-2.1.7.tar.bz2
88a90327a75833b7723942d3bd25f954  vdr-2.1.6-2.1.7.diff

WARNING:
========

This is a *developer* version. Even though *I* use it in my productive
environment, I strongly recommend that you only use it under controlled
conditions and for testing and debugging.

From the HISTORY file:
- No longer logging an error message in DirSizeMB() if the given directory doesn't
  exist. This avoids lots of log entries in case several VDRs use the same video
  directory and one of them has already physically removed a recording directory,
  while the others still have it in their list of deleted recordings.
- Updated the Italian OSD texts (thanks to Diego Pierotto).
- A cCamSlot that has WantsTsData set to true in its constructor now also gets
  the CAT and EMM PIDs data.
- Fixed a possible division by zero in frame rate detection.
- VDR now reads command line options from *.conf files in /etc/vdr/conf.d (thanks
  to Lars Hanisch). See vdr.1 and vdr.5 for details.
- Fixed a possible crash in the LCARS skin (thanks to Thomas Reufer).
- Updated the dvbhddevice plugin source.
- Fixed a bug in the Makefile when installing plugins with LCLBLD=1 (thanks to
  Stefan Huelswitt).
- The pid of the PMT in which the CA descriptors of a given channel are broadcast
  is now stored together with the CA descriptors and can be retrieved by calling
  GetPmtPid() (this information is only required to receive encrypted channels
  with the OctopusNet receiver via the 'satip' plugin).
- Channels that are not listed in the SDT are now only marked as OBSOLETE if
  "Setup/DVB/Update channels" is set to a value other than "no" or "PIDs only".
- Fixed multiple OBSOLETE marks in channels that are not listed in the SDT in case
  "Setup/Miscellaneous/Show channel names with source" is set to "yes".
- The new function cOsd::DrawScaledBitmap() is now used for drawing subtitles.
  This function can be reimplemented by high level OSDs which may be able to do
  the scaling in hardware or otherwise more efficiently (thanks to Thomas Reufer).
- Fixed detaching receivers from devices in case a CAM needs to receive the TS
  (reported by Dietmar Spingler).
- Fixed resetting the receiver for EMM pids for CAMs that need to receive the TS
  (reported by Dietmar Spingler).
- Fixed (well, actually worked around) a problem with subtitles not being displayed
  because the broadcaster doesn't set the data's version numbers as required by the
  DVB standard (thanks to Rolf Ahrenberg).
- Fixed support for systemd (thanks to Christopher Reimer).
- Added a missing backslash to the help text of the SVDRP command MOVR (thanks to
  Lars Hanisch).
- Added subsystem id support for DVB devices connected via USB (thanks to Jose
  Alberto Reguero).
- Added the functions IndexOf(), InsertUnique(), AppendUnique() and RemoveElement()
  to the cVector class (thanks to Stefan Schallenberg).
- Fixed a possible out-of-bounds access in cVector::Remove().
- Added functions to set and retrieve the priority of a cReceiver (suggested by
  Frank Schmirler).
- Added the new parameters "Setup/Miscellaneous/Volume steps" and
  ".../Volume linearize" (thanks to Claus Muus). See the MANUAL for details.
- Fixed jumping to an absolute position via the Red key in case replay was paused
  (reported by Dieter Ferdinand).
- Changed the German weekday names from "MonDieMitDonFreSamSon" to
  "Mo.Di.Mi.Do.Fr.Sa.So." (thanks to Stefan Blochberger).
- Now handling CAT sections that consist of more than one TS packet.
- Added handling for DTS audio tracks to cPatPmtParser::ParsePmt() (thanks to
  Thomas Reufer).
- Added support for PGS subtitles (thanks to Thomas Reufer).
- Use of the function cOsd::GetBitmap() outside of derived classes is now deprecated,
  and it may be made 'protected' in a future version, since it doesn't work with
  TrueColor OSDs. Plugin authors may want to modify their code so that it
  works without this function.
- Modified the descriptions of several threads, so that the important information
  (like device or frontend numbers) is within the first 15 characters of the
  string, because only these are displayed in thread listings. Plugin authors may
  want to do the same.
- Added the channel name to log messages that reference a channel (suggested by
  Dietmar Spingler).
- Modified the CAM API so that it is possible to implement CAMs that can be freely
  assigned to any devices (thanks to Jasmin Jessich).
- Plugins can now implement the function SetMenuSortMode() in their skin objects
  derived from cSkinDisplayMenu, to get informed about the currently used sort
  mode, if applicable (suggested by Martin Schirrmacher).
- Added cOsdProvider::OsdSizeChanged(), which plugins that implement an output device
  can call to signal a change in the OSD that requires a redraw of the currently
  displayed object (thanks to Thomas Reufer).
- Added a comment to cRecorder::Activate() about the need to call Detach() in the
  destructor (suggested by Eike Sauer).
- Now returning from removing deleted recordings after at most 10 seconds, or if the
  user presses a remote control key, to keep the system from getting unresponsive
  when removing a huge number of files (reported by Dieter Ferdinand).
- Fixed generating the index file of an existing recording in case at the of a TS file
  there is less data in the buffer than needed by the frame detector. In such a case
  it was possible that frames were missed, and there was most likely a distortion
  when replaying that part of a recording. This is mostly a problem for recordings that
  consist of more than one *.ts file. Single file recordings could only lose some
  frames at their very end, which probably doesn't matter. At any rate, if you have
  generated an index file with VDR version 2.0.6, 2.1.5 or 2.1.6, you may want to
  do so again with this version to make sure the index is OK.
- Added the new command line option --updindex, which can be used to update an
  incomplete index of a recording (based on a patch from Helmut Auer).
2015-01-18 14:45:41 +01:00

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/*
* remux.h: Tools for detecting frames and handling PAT/PMT
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* $Id: remux.h 3.4 2014/03/22 14:58:24 kls Exp $
*/
#ifndef __REMUX_H
#define __REMUX_H
#include "channels.h"
#include "tools.h"
enum ePesHeader {
phNeedMoreData = -1,
phInvalid = 0,
phMPEG1 = 1,
phMPEG2 = 2
};
ePesHeader AnalyzePesHeader(const uchar *Data, int Count, int &PesPayloadOffset, bool *ContinuationHeader = NULL);
class cRemux {
public:
static void SetBrokenLink(uchar *Data, int Length);
};
// Some TS handling tools.
// The following functions all take a pointer to one complete TS packet.
#define TS_SYNC_BYTE 0x47
#define TS_SIZE 188
#define TS_ERROR 0x80
#define TS_PAYLOAD_START 0x40
#define TS_TRANSPORT_PRIORITY 0x20
#define TS_PID_MASK_HI 0x1F
#define TS_SCRAMBLING_CONTROL 0xC0
#define TS_ADAPT_FIELD_EXISTS 0x20
#define TS_PAYLOAD_EXISTS 0x10
#define TS_CONT_CNT_MASK 0x0F
#define TS_ADAPT_DISCONT 0x80
#define TS_ADAPT_RANDOM_ACC 0x40 // would be perfect for detecting independent frames, but unfortunately not used by all broadcasters
#define TS_ADAPT_ELEM_PRIO 0x20
#define TS_ADAPT_PCR 0x10
#define TS_ADAPT_OPCR 0x08
#define TS_ADAPT_SPLICING 0x04
#define TS_ADAPT_TP_PRIVATE 0x02
#define TS_ADAPT_EXTENSION 0x01
#define PATPID 0x0000 // PAT PID (constant 0)
#define CATPID 0x0001 // CAT PID (constant 1)
#define MAXPID 0x2000 // for arrays that use a PID as the index
#define PTSTICKS 90000 // number of PTS ticks per second
#define PCRFACTOR 300 // conversion from 27MHz PCR extension to 90kHz PCR base
#define MAX33BIT 0x00000001FFFFFFFFLL // max. possible value with 33 bit
#define MAX27MHZ ((MAX33BIT + 1) * PCRFACTOR - 1) // max. possible PCR value
inline bool TsHasPayload(const uchar *p)
{
return p[3] & TS_PAYLOAD_EXISTS;
}
inline bool TsHasAdaptationField(const uchar *p)
{
return p[3] & TS_ADAPT_FIELD_EXISTS;
}
inline bool TsPayloadStart(const uchar *p)
{
return p[1] & TS_PAYLOAD_START;
}
inline bool TsError(const uchar *p)
{
return p[1] & TS_ERROR;
}
inline int TsPid(const uchar *p)
{
return (p[1] & TS_PID_MASK_HI) * 256 + p[2];
}
inline bool TsIsScrambled(const uchar *p)
{
return p[3] & TS_SCRAMBLING_CONTROL;
}
inline uchar TsGetContinuityCounter(const uchar *p)
{
return p[3] & TS_CONT_CNT_MASK;
}
inline void TsSetContinuityCounter(uchar *p, uchar Counter)
{
p[3] = (p[3] & ~TS_CONT_CNT_MASK) | (Counter & TS_CONT_CNT_MASK);
}
inline int TsPayloadOffset(const uchar *p)
{
int o = TsHasAdaptationField(p) ? p[4] + 5 : 4;
return o <= TS_SIZE ? o : TS_SIZE;
}
inline int TsGetPayload(const uchar **p)
{
if (TsHasPayload(*p)) {
int o = TsPayloadOffset(*p);
*p += o;
return TS_SIZE - o;
}
return 0;
}
inline int TsContinuityCounter(const uchar *p)
{
return p[3] & TS_CONT_CNT_MASK;
}
inline int64_t TsGetPcr(const uchar *p)
{
if (TsHasAdaptationField(p)) {
if (p[4] >= 7 && (p[5] & TS_ADAPT_PCR)) {
return ((((int64_t)p[ 6]) << 25) |
(((int64_t)p[ 7]) << 17) |
(((int64_t)p[ 8]) << 9) |
(((int64_t)p[ 9]) << 1) |
(((int64_t)p[10]) >> 7)) * PCRFACTOR +
(((((int)p[10]) & 0x01) << 8) |
( ((int)p[11])));
}
}
return -1;
}
void TsHidePayload(uchar *p);
void TsSetPcr(uchar *p, int64_t Pcr);
// The following functions all take a pointer to a sequence of complete TS packets.
int64_t TsGetPts(const uchar *p, int l);
int64_t TsGetDts(const uchar *p, int l);
void TsSetPts(uchar *p, int l, int64_t Pts);
void TsSetDts(uchar *p, int l, int64_t Dts);
// Some PES handling tools:
// The following functions that take a pointer to PES data all assume that
// there is enough data so that PesLongEnough() returns true.
inline bool PesLongEnough(int Length)
{
return Length >= 6;
}
inline bool PesHasLength(const uchar *p)
{
return p[4] | p[5];
}
inline int PesLength(const uchar *p)
{
return 6 + p[4] * 256 + p[5];
}
inline int PesPayloadOffset(const uchar *p)
{
return 9 + p[8];
}
inline bool PesHasPts(const uchar *p)
{
return (p[7] & 0x80) && p[8] >= 5;
}
inline bool PesHasDts(const uchar *p)
{
return (p[7] & 0x40) && p[8] >= 10;
}
inline int64_t PesGetPts(const uchar *p)
{
return ((((int64_t)p[ 9]) & 0x0E) << 29) |
(( (int64_t)p[10]) << 22) |
((((int64_t)p[11]) & 0xFE) << 14) |
(( (int64_t)p[12]) << 7) |
((((int64_t)p[13]) & 0xFE) >> 1);
}
inline int64_t PesGetDts(const uchar *p)
{
return ((((int64_t)p[14]) & 0x0E) << 29) |
(( (int64_t)p[15]) << 22) |
((((int64_t)p[16]) & 0xFE) << 14) |
(( (int64_t)p[17]) << 7) |
((((int64_t)p[18]) & 0xFE) >> 1);
}
void PesSetPts(uchar *p, int64_t Pts);
void PesSetDts(uchar *p, int64_t Dts);
// PTS handling:
inline int64_t PtsAdd(int64_t Pts1, int64_t Pts2) { return (Pts1 + Pts2) & MAX33BIT; }
///< Adds the given PTS values, taking into account the 33bit wrap around.
int64_t PtsDiff(int64_t Pts1, int64_t Pts2);
///< Returns the difference between two PTS values. The result of Pts2 - Pts1
///< is the actual number of 90kHz time ticks that pass from Pts1 to Pts2,
///< properly taking into account the 33bit wrap around. If Pts2 is "before"
///< Pts1, the result is negative.
// A transprent TS payload handler:
class cTsPayload {
private:
uchar *data;
int length;
int pid;
int index; // points to the next byte to process
int numPacketsPid; // the number of TS packets with the given PID (for statistical purposes)
int numPacketsOther; // the number of TS packets with other PIDs (for statistical purposes)
uchar SetEof(void);
protected:
void Reset(void);
public:
cTsPayload(void);
cTsPayload(uchar *Data, int Length, int Pid = -1);
///< Creates a new TS payload handler and calls Setup() with the given Data.
void Setup(uchar *Data, int Length, int Pid = -1);
///< Sets up this TS payload handler with the given Data, which points to a
///< sequence of Length bytes of complete TS packets. Any incomplete TS
///< packet at the end will be ignored.
///< If Pid is given, only TS packets with data for that PID will be processed.
///< Otherwise the PID of the first TS packet defines which payload will be
///< delivered.
///< Any intermediate TS packets with different PIDs will be skipped.
bool AtTsStart(void) { return index < length && (index % TS_SIZE) == 0; }
///< Returns true if this payload handler is currently pointing to first byte
///< of a TS packet.
bool AtPayloadStart(void) { return AtTsStart() && TsPayloadStart(data + index); }
///< Returns true if this payload handler is currently pointing to the first byte
///< of a TS packet that starts a new payload.
int Available(void) { return length - index; }
///< Returns the number of raw bytes (including any TS headers) still available
///< in the TS payload handler.
int Used(void) { return (index + TS_SIZE - 1) / TS_SIZE * TS_SIZE; }
///< Returns the number of raw bytes that have already been used (e.g. by calling
///< GetByte()). Any TS packet of which at least a single byte has been delivered
///< is counted with its full size.
bool Eof(void) const { return index >= length; }
///< Returns true if all available bytes of the TS payload have been processed.
void Statistics(void) const;
///< May be called after a new frame has been detected, and will log a warning
///< if the number of TS packets required to determine the frame type exceeded
///< some safety limits.
uchar GetByte(void);
///< Gets the next byte of the TS payload, skipping any intermediate TS header data.
bool SkipBytes(int Bytes);
///< Skips the given number of bytes in the payload and returns true if there
///< is still data left to read.
bool SkipPesHeader(void);
///< Skips all bytes belonging to the PES header of the payload.
int GetLastIndex(void);
///< Returns the index into the TS data of the payload byte that has most recently
///< been read. If no byte has been read yet, -1 will be returned.
void SetByte(uchar Byte, int Index);
///< Sets the TS data byte at the given Index to the value Byte.
///< Index should be one that has been retrieved by a previous call to GetIndex(),
///< otherwise the behaviour is undefined. The current read index will not be
///< altered by a call to this function.
bool Find(uint32_t Code);
///< Searches for the four byte sequence given in Code and returns true if it
///< was found within the payload data. The next call to GetByte() will return the
///< value immediately following the Code. If the code was not found, the read
///< index will remain the same as before this call, so that several calls to
///< Find() can be performed starting at the same index..
///< The special code 0xFFFFFFFF can not be searched, because this value is used
///< to initialize the scanner.
};
// PAT/PMT Generator:
#define MAX_SECTION_SIZE 4096 // maximum size of an SI section
#define MAX_PMT_TS (MAX_SECTION_SIZE / TS_SIZE + 1)
class cPatPmtGenerator {
private:
uchar pat[TS_SIZE]; // the PAT always fits into a single TS packet
uchar pmt[MAX_PMT_TS][TS_SIZE]; // the PMT may well extend over several TS packets
int numPmtPackets;
int patCounter;
int pmtCounter;
int patVersion;
int pmtVersion;
int pmtPid;
uchar *esInfoLength;
void IncCounter(int &Counter, uchar *TsPacket);
void IncVersion(int &Version);
void IncEsInfoLength(int Length);
protected:
int MakeStream(uchar *Target, uchar Type, int Pid);
int MakeAC3Descriptor(uchar *Target, uchar Type);
int MakeSubtitlingDescriptor(uchar *Target, const char *Language, uchar SubtitlingType, uint16_t CompositionPageId, uint16_t AncillaryPageId);
int MakeLanguageDescriptor(uchar *Target, const char *Language);
int MakeCRC(uchar *Target, const uchar *Data, int Length);
void GeneratePmtPid(const cChannel *Channel);
///< Generates a PMT pid that doesn't collide with any of the actual
///< pids of the Channel.
void GeneratePat(void);
///< Generates a PAT section for later use with GetPat().
void GeneratePmt(const cChannel *Channel);
///< Generates a PMT section for the given Channel, for later use
///< with GetPmt().
public:
cPatPmtGenerator(const cChannel *Channel = NULL);
void SetVersions(int PatVersion, int PmtVersion);
///< Sets the version numbers for the generated PAT and PMT, in case
///< this generator is used to, e.g., continue a previously interrupted
///< recording (in which case the numbers given should be derived from
///< the PAT/PMT versions last used in the existing recording, incremented
///< by 1. If the given numbers exceed the allowed range of 0..31, the
///< higher bits will automatically be cleared.
///< SetVersions() needs to be called before SetChannel() in order to
///< have an effect from the very start.
void SetChannel(const cChannel *Channel);
///< Sets the Channel for which the PAT/PMT shall be generated.
uchar *GetPat(void);
///< Returns a pointer to the PAT section, which consists of exactly
///< one TS packet.
uchar *GetPmt(int &Index);
///< Returns a pointer to the Index'th TS packet of the PMT section.
///< Index must be initialized to 0 and will be incremented by each
///< call to GetPmt(). Returns NULL is all packets of the PMT section
///< have been fetched..
};
// PAT/PMT Parser:
#define MAX_PMT_PIDS 32
class cPatPmtParser {
private:
uchar pmt[MAX_SECTION_SIZE];
int pmtSize;
int patVersion;
int pmtVersion;
int pmtPids[MAX_PMT_PIDS + 1]; // list is zero-terminated
int vpid;
int ppid;
int vtype;
int apids[MAXAPIDS + 1]; // list is zero-terminated
int atypes[MAXAPIDS + 1]; // list is zero-terminated
char alangs[MAXAPIDS][MAXLANGCODE2];
int dpids[MAXDPIDS + 1]; // list is zero-terminated
int dtypes[MAXDPIDS + 1]; // list is zero-terminated
char dlangs[MAXDPIDS][MAXLANGCODE2];
int spids[MAXSPIDS + 1]; // list is zero-terminated
char slangs[MAXSPIDS][MAXLANGCODE2];
uchar subtitlingTypes[MAXSPIDS];
uint16_t compositionPageIds[MAXSPIDS];
uint16_t ancillaryPageIds[MAXSPIDS];
bool updatePrimaryDevice;
protected:
int SectionLength(const uchar *Data, int Length) { return (Length >= 3) ? ((int(Data[1]) & 0x0F) << 8)| Data[2] : 0; }
public:
cPatPmtParser(bool UpdatePrimaryDevice = false);
void Reset(void);
///< Resets the parser. This function must be called whenever a new
///< stream is parsed.
void ParsePat(const uchar *Data, int Length);
///< Parses the PAT data from the single TS packet in Data.
///< Length is always TS_SIZE.
void ParsePmt(const uchar *Data, int Length);
///< Parses the PMT data from the single TS packet in Data.
///< Length is always TS_SIZE.
///< The PMT may consist of several TS packets, which
///< are delivered to the parser through several subsequent calls to
///< ParsePmt(). The whole PMT data will be processed once the last packet
///< has been received.
bool ParsePatPmt(const uchar *Data, int Length);
///< Parses the given Data (which may consist of several TS packets, typically
///< an entire frame) and extracts the PAT and PMT.
///< Returns true if a valid PAT/PMT has been detected.
bool GetVersions(int &PatVersion, int &PmtVersion) const;
///< Returns true if a valid PAT/PMT has been parsed and stores
///< the current version numbers in the given variables.
bool IsPmtPid(int Pid) const { for (int i = 0; pmtPids[i]; i++) if (pmtPids[i] == Pid) return true; return false; }
///< Returns true if Pid the one of the PMT pids as defined by the current PAT.
///< If no PAT has been received yet, false will be returned.
int Vpid(void) const { return vpid; }
///< Returns the video pid as defined by the current PMT, or 0 if no video
///< pid has been detected, yet.
int Ppid(void) const { return ppid; }
///< Returns the PCR pid as defined by the current PMT, or 0 if no PCR
///< pid has been detected, yet.
int Vtype(void) const { return vtype; }
///< Returns the video stream type as defined by the current PMT, or 0 if no video
///< stream type has been detected, yet.
const int *Apids(void) const { return apids; }
const int *Dpids(void) const { return dpids; }
const int *Spids(void) const { return spids; }
int Apid(int i) const { return (0 <= i && i < MAXAPIDS) ? apids[i] : 0; }
int Dpid(int i) const { return (0 <= i && i < MAXDPIDS) ? dpids[i] : 0; }
int Spid(int i) const { return (0 <= i && i < MAXSPIDS) ? spids[i] : 0; }
int Atype(int i) const { return (0 <= i && i < MAXAPIDS) ? atypes[i] : 0; }
int Dtype(int i) const { return (0 <= i && i < MAXDPIDS) ? dtypes[i] : 0; }
const char *Alang(int i) const { return (0 <= i && i < MAXAPIDS) ? alangs[i] : ""; }
const char *Dlang(int i) const { return (0 <= i && i < MAXDPIDS) ? dlangs[i] : ""; }
const char *Slang(int i) const { return (0 <= i && i < MAXSPIDS) ? slangs[i] : ""; }
uchar SubtitlingType(int i) const { return (0 <= i && i < MAXSPIDS) ? subtitlingTypes[i] : uchar(0); }
uint16_t CompositionPageId(int i) const { return (0 <= i && i < MAXSPIDS) ? compositionPageIds[i] : uint16_t(0); }
uint16_t AncillaryPageId(int i) const { return (0 <= i && i < MAXSPIDS) ? ancillaryPageIds[i] : uint16_t(0); }
};
// TS to PES converter:
// Puts together the payload of several TS packets that form one PES
// packet.
class cTsToPes {
private:
uchar *data;
int size;
int length;
int offset;
uchar *lastData;
int lastLength;
bool repeatLast;
public:
cTsToPes(void);
~cTsToPes();
void PutTs(const uchar *Data, int Length);
///< Puts the payload data of the single TS packet at Data into the converter.
///< Length is always TS_SIZE.
///< If the given TS packet starts a new PES payload packet, the converter
///< will be automatically reset. Any packets before the first one that starts
///< a new PES payload packet will be ignored.
///< Once a TS packet has been put into a cTsToPes converter, all subsequent
///< packets until the next call to Reset() must belong to the same PID as
///< the first packet. There is no check whether this actually is the case, so
///< the caller is responsible for making sure this condition is met.
const uchar *GetPes(int &Length);
///< Gets a pointer to the complete PES packet, or NULL if the packet
///< is not complete yet. If the packet is complete, Length will contain
///< the total packet length. The returned pointer is only valid until
///< the next call to PutTs() or Reset(), or until this object is destroyed.
///< Once GetPes() has returned a non-NULL value, it must be called
///< repeatedly, and the data processed, until it returns NULL. This
///< is because video packets may be larger than the data a single
///< PES packet with an actual length field can hold, and are therefore
///< split into several PES packets with smaller sizes.
///< Note that for video data GetPes() may only be called if the next
///< TS packet that will be given to PutTs() has the "payload start" flag
///< set, because this is the only way to determine the end of a video PES
///< packet.
void SetRepeatLast(void);
///< Makes the next call to GetPes() return exactly the same data as the
///< last one (provided there was no call to Reset() in the meantime).
void Reset(void);
///< Resets the converter. This needs to be called after a PES packet has
///< been fetched by a call to GetPes(), and before the next call to
///< PutTs().
};
// Some helper functions for debugging:
void BlockDump(const char *Name, const u_char *Data, int Length);
void TsDump(const char *Name, const u_char *Data, int Length);
void PesDump(const char *Name, const u_char *Data, int Length);
// Frame detector:
#define MIN_TS_PACKETS_FOR_FRAME_DETECTOR 100
class cFrameParser;
class cFrameDetector {
private:
enum { MaxPtsValues = 150 };
int pid;
int type;
bool synced;
bool newFrame;
bool independentFrame;
uint32_t ptsValues[MaxPtsValues]; // 32 bit is enough - we only need the delta
int numPtsValues;
int numIFrames;
bool isVideo;
double framesPerSecond;
int framesInPayloadUnit;
int framesPerPayloadUnit; // Some broadcasters send one frame per payload unit (== 1),
// while others put an entire GOP into one payload unit (> 1).
bool scanning;
cFrameParser *parser;
public:
cFrameDetector(int Pid = 0, int Type = 0);
///< Sets up a frame detector for the given Pid and stream Type.
///< If no Pid and Type is given, they need to be set by a separate
///< call to SetPid().
void SetPid(int Pid, int Type);
///< Sets the Pid and stream Type to detect frames for.
int Analyze(const uchar *Data, int Length);
///< Analyzes the TS packets pointed to by Data. Length is the number of
///< bytes Data points to, and must be a multiple of TS_SIZE.
///< Returns the number of bytes that have been analyzed.
///< If the return value is 0, the data was not sufficient for analyzing and
///< Analyze() needs to be called again with more actual data.
bool Synced(void) { return synced; }
///< Returns true if the frame detector has synced on the data stream.
bool NewFrame(void) { return newFrame; }
///< Returns true if the data given to the last call to Analyze() started a
///< new frame.
bool IndependentFrame(void) { return independentFrame; }
///< Returns true if a new frame was detected and this is an independent frame
///< (i.e. one that can be displayed by itself, without using data from any
///< other frames).
double FramesPerSecond(void) { return framesPerSecond; }
///< Returns the number of frames per second, or 0 if this information is not
///< available.
};
#endif // __REMUX_H
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