mirror of
https://github.com/VDR4Arch/vdr.git
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388 lines
14 KiB
C++
388 lines
14 KiB
C++
/*
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* remux.h: Tools for detecting frames and handling PAT/PMT
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*
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* See the main source file 'vdr.c' for copyright information and
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* how to reach the author.
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*
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* $Id: remux.h 2.24 2010/01/29 16:51:26 kls Exp $
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*/
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#ifndef __REMUX_H
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#define __REMUX_H
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#include "channels.h"
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#include "tools.h"
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enum ePesHeader {
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phNeedMoreData = -1,
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phInvalid = 0,
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phMPEG1 = 1,
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phMPEG2 = 2
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};
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ePesHeader AnalyzePesHeader(const uchar *Data, int Count, int &PesPayloadOffset, bool *ContinuationHeader = NULL);
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class cRemux {
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public:
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static void SetBrokenLink(uchar *Data, int Length);
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};
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// Some TS handling tools.
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// The following functions all take a pointer to one complete TS packet.
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#define TS_SYNC_BYTE 0x47
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#define TS_SIZE 188
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#define TS_ERROR 0x80
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#define TS_PAYLOAD_START 0x40
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#define TS_TRANSPORT_PRIORITY 0x20
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#define TS_PID_MASK_HI 0x1F
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#define TS_SCRAMBLING_CONTROL 0xC0
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#define TS_ADAPT_FIELD_EXISTS 0x20
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#define TS_PAYLOAD_EXISTS 0x10
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#define TS_CONT_CNT_MASK 0x0F
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#define TS_ADAPT_DISCONT 0x80
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#define TS_ADAPT_RANDOM_ACC 0x40 // would be perfect for detecting independent frames, but unfortunately not used by all broadcasters
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#define TS_ADAPT_ELEM_PRIO 0x20
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#define TS_ADAPT_PCR 0x10
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#define TS_ADAPT_OPCR 0x08
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#define TS_ADAPT_SPLICING 0x04
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#define TS_ADAPT_TP_PRIVATE 0x02
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#define TS_ADAPT_EXTENSION 0x01
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#define PATPID 0x0000 // PAT PID (constant 0)
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#define MAXPID 0x2000 // for arrays that use a PID as the index
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inline bool TsHasPayload(const uchar *p)
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{
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return p[3] & TS_PAYLOAD_EXISTS;
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}
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inline bool TsHasAdaptationField(const uchar *p)
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{
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return p[3] & TS_ADAPT_FIELD_EXISTS;
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}
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inline bool TsPayloadStart(const uchar *p)
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{
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return p[1] & TS_PAYLOAD_START;
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}
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inline bool TsError(const uchar *p)
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{
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return p[1] & TS_ERROR;
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}
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inline int TsPid(const uchar *p)
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{
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return (p[1] & TS_PID_MASK_HI) * 256 + p[2];
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}
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inline bool TsIsScrambled(const uchar *p)
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{
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return p[3] & TS_SCRAMBLING_CONTROL;
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}
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inline int TsPayloadOffset(const uchar *p)
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{
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return (p[3] & TS_ADAPT_FIELD_EXISTS) ? p[4] + 5 : 4;
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}
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inline int TsGetPayload(const uchar **p)
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{
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int o = TsPayloadOffset(*p);
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*p += o;
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return TS_SIZE - o;
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}
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inline int TsContinuityCounter(const uchar *p)
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{
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return p[3] & TS_CONT_CNT_MASK;
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}
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inline int TsGetAdaptationField(const uchar *p)
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{
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return TsHasAdaptationField(p) ? p[5] : 0x00;
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}
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// The following functions all take a pointer to a sequence of complete TS packets.
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int64_t TsGetPts(const uchar *p, int l);
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void TsSetTeiOnBrokenPackets(uchar *p, int l);
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// Some PES handling tools:
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// The following functions that take a pointer to PES data all assume that
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// there is enough data so that PesLongEnough() returns true.
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inline bool PesLongEnough(int Length)
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{
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return Length >= 6;
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}
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inline bool PesHasLength(const uchar *p)
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{
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return p[4] | p[5];
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}
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inline int PesLength(const uchar *p)
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{
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return 6 + p[4] * 256 + p[5];
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}
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inline int PesPayloadOffset(const uchar *p)
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{
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return 9 + p[8];
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}
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inline bool PesHasPts(const uchar *p)
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{
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return (p[7] & 0x80) && p[8] >= 5;
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}
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inline int64_t PesGetPts(const uchar *p)
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{
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return ((((int64_t)p[ 9]) & 0x0E) << 29) |
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(( (int64_t)p[10]) << 22) |
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((((int64_t)p[11]) & 0xFE) << 14) |
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(( (int64_t)p[12]) << 7) |
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((((int64_t)p[13]) & 0xFE) >> 1);
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}
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// PAT/PMT Generator:
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#define MAX_SECTION_SIZE 4096 // maximum size of an SI section
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#define MAX_PMT_TS (MAX_SECTION_SIZE / TS_SIZE + 1)
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class cPatPmtGenerator {
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private:
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uchar pat[TS_SIZE]; // the PAT always fits into a single TS packet
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uchar pmt[MAX_PMT_TS][TS_SIZE]; // the PMT may well extend over several TS packets
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int numPmtPackets;
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int patCounter;
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int pmtCounter;
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int patVersion;
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int pmtVersion;
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int pmtPid;
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uchar *esInfoLength;
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void IncCounter(int &Counter, uchar *TsPacket);
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void IncVersion(int &Version);
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void IncEsInfoLength(int Length);
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protected:
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int MakeStream(uchar *Target, uchar Type, int Pid);
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int MakeAC3Descriptor(uchar *Target);
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int MakeSubtitlingDescriptor(uchar *Target, const char *Language, uchar SubtitlingType, uint16_t CompositionPageId, uint16_t AncillaryPageId);
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int MakeLanguageDescriptor(uchar *Target, const char *Language);
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int MakeCRC(uchar *Target, const uchar *Data, int Length);
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void GeneratePmtPid(const cChannel *Channel);
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///< Generates a PMT pid that doesn't collide with any of the actual
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///< pids of the Channel.
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void GeneratePat(void);
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///< Generates a PAT section for later use with GetPat().
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void GeneratePmt(const cChannel *Channel);
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///< Generates a PMT section for the given Channel, for later use
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///< with GetPmt().
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public:
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cPatPmtGenerator(const cChannel *Channel = NULL);
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void SetVersions(int PatVersion, int PmtVersion);
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///< Sets the version numbers for the generated PAT and PMT, in case
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///< this generator is used to, e.g., continue a previously interrupted
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///< recording (in which case the numbers given should be derived from
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///< the PAT/PMT versions last used in the existing recording, incremented
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///< by 1. If the given numbers exceed the allowed range of 0..31, the
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///< higher bits will automatically be cleared.
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///< SetVersions() needs to be called before SetChannel() in order to
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///< have an effect from the very start.
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void SetChannel(const cChannel *Channel);
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///< Sets the Channel for which the PAT/PMT shall be generated.
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uchar *GetPat(void);
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///< Returns a pointer to the PAT section, which consists of exactly
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///< one TS packet.
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uchar *GetPmt(int &Index);
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///< Returns a pointer to the Index'th TS packet of the PMT section.
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///< Index must be initialized to 0 and will be incremented by each
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///< call to GetPmt(). Returns NULL is all packets of the PMT section
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///< have been fetched..
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};
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// PAT/PMT Parser:
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class cPatPmtParser {
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private:
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uchar pmt[MAX_SECTION_SIZE];
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int pmtSize;
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int patVersion;
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int pmtVersion;
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int pmtPid;
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int vpid;
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int ppid;
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int vtype;
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int apids[MAXAPIDS + 1]; // list is zero-terminated
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int atypes[MAXAPIDS + 1]; // list is zero-terminated
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char alangs[MAXAPIDS][MAXLANGCODE2];
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int dpids[MAXDPIDS + 1]; // list is zero-terminated
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int dtypes[MAXDPIDS + 1]; // list is zero-terminated
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char dlangs[MAXDPIDS][MAXLANGCODE2];
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int spids[MAXSPIDS + 1]; // list is zero-terminated
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char slangs[MAXSPIDS][MAXLANGCODE2];
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uchar subtitlingTypes[MAXSPIDS];
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uint16_t compositionPageIds[MAXSPIDS];
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uint16_t ancillaryPageIds[MAXSPIDS];
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bool updatePrimaryDevice;
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protected:
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int SectionLength(const uchar *Data, int Length) { return (Length >= 3) ? ((int(Data[1]) & 0x0F) << 8)| Data[2] : 0; }
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public:
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cPatPmtParser(bool UpdatePrimaryDevice = false);
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void Reset(void);
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///< Resets the parser. This function must be called whenever a new
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///< stream is parsed.
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void ParsePat(const uchar *Data, int Length);
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///< Parses the PAT data from the single TS packet in Data.
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///< Length is always TS_SIZE.
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void ParsePmt(const uchar *Data, int Length);
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///< Parses the PMT data from the single TS packet in Data.
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///< Length is always TS_SIZE.
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///< The PMT may consist of several TS packets, which
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///< are delivered to the parser through several subsequent calls to
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///< ParsePmt(). The whole PMT data will be processed once the last packet
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///< has been received.
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bool GetVersions(int &PatVersion, int &PmtVersion) const;
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///< Returns true if a valid PAT/PMT has been parsed and stores
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///< the current version numbers in the given variables.
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int PmtPid(void) const { return pmtPid; }
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///< Returns the PMT pid as defined by the current PAT.
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///< If no PAT has been received yet, -1 will be returned.
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int Vpid(void) const { return vpid; }
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///< Returns the video pid as defined by the current PMT, or 0 if no video
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///< pid has been detected, yet.
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int Ppid(void) const { return ppid; }
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///< Returns the PCR pid as defined by the current PMT, or 0 if no PCR
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///< pid has been detected, yet.
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int Vtype(void) const { return vtype; }
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///< Returns the video stream type as defined by the current PMT, or 0 if no video
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///< stream type has been detected, yet.
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const int *Apids(void) const { return apids; }
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const int *Dpids(void) const { return dpids; }
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const int *Spids(void) const { return spids; }
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int Apid(int i) const { return (0 <= i && i < MAXAPIDS) ? apids[i] : 0; }
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int Dpid(int i) const { return (0 <= i && i < MAXDPIDS) ? dpids[i] : 0; }
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int Spid(int i) const { return (0 <= i && i < MAXSPIDS) ? spids[i] : 0; }
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int Atype(int i) const { return (0 <= i && i < MAXAPIDS) ? atypes[i] : 0; }
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int Dtype(int i) const { return (0 <= i && i < MAXDPIDS) ? dtypes[i] : 0; }
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const char *Alang(int i) const { return (0 <= i && i < MAXAPIDS) ? alangs[i] : ""; }
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const char *Dlang(int i) const { return (0 <= i && i < MAXDPIDS) ? dlangs[i] : ""; }
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const char *Slang(int i) const { return (0 <= i && i < MAXSPIDS) ? slangs[i] : ""; }
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uchar SubtitlingType(int i) const { return (0 <= i && i < MAXSPIDS) ? subtitlingTypes[i] : uchar(0); }
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uint16_t CompositionPageId(int i) const { return (0 <= i && i < MAXSPIDS) ? compositionPageIds[i] : uint16_t(0); }
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uint16_t AncillaryPageId(int i) const { return (0 <= i && i < MAXSPIDS) ? ancillaryPageIds[i] : uint16_t(0); }
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};
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// TS to PES converter:
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// Puts together the payload of several TS packets that form one PES
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// packet.
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class cTsToPes {
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private:
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uchar *data;
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int size;
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int length;
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int offset;
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uchar *lastData;
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int lastLength;
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bool repeatLast;
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public:
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cTsToPes(void);
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~cTsToPes();
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void PutTs(const uchar *Data, int Length);
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///< Puts the payload data of the single TS packet at Data into the converter.
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///< Length is always 188.
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///< If the given TS packet starts a new PES payload packet, the converter
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///< will be automatically reset. Any packets before the first one that starts
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///< a new PES payload packet will be ignored.
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///< Once a TS packet has been put into a cTsToPes converter, all subsequent
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///< packets until the next call to Reset() must belong to the same PID as
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///< the first packet. There is no check whether this actually is the case, so
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///< the caller is responsible for making sure this condition is met.
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const uchar *GetPes(int &Length);
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///< Gets a pointer to the complete PES packet, or NULL if the packet
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///< is not complete yet. If the packet is complete, Length will contain
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///< the total packet length. The returned pointer is only valid until
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///< the next call to PutTs() or Reset(), or until this object is destroyed.
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///< Once GetPes() has returned a non-NULL value, it must be called
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///< repeatedly, and the data processed, until it returns NULL. This
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///< is because video packets may be larger than the data a single
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///< PES packet with an actual length field can hold, and are therefore
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///< split into several PES packets with smaller sizes.
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///< Note that for video data GetPes() may only be called if the next
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///< TS packet that will be given to PutTs() has the "payload start" flag
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///< set, because this is the only way to determine the end of a video PES
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///< packet.
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void SetRepeatLast(void);
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///< Makes the next call to GetPes() return exactly the same data as the
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///< last one (provided there was no call to Reset() in the meantime).
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void Reset(void);
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///< Resets the converter. This needs to be called after a PES packet has
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///< been fetched by a call to GetPes(), and before the next call to
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///< PutTs().
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};
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// Some helper functions for debugging:
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void BlockDump(const char *Name, const u_char *Data, int Length);
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void TsDump(const char *Name, const u_char *Data, int Length);
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void PesDump(const char *Name, const u_char *Data, int Length);
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// Frame detector:
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#define MIN_TS_PACKETS_FOR_FRAME_DETECTOR 2
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class cFrameDetector {
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private:
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enum { MaxPtsValues = 150 };
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int pid;
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int type;
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bool synced;
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bool newFrame;
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bool independentFrame;
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uint32_t ptsValues[MaxPtsValues]; // 32 bit is enough - we only need the delta
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int numPtsValues;
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int numIFrames;
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bool isVideo;
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int frameDuration;
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int framesInPayloadUnit;
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int framesPerPayloadUnit; // Some broadcasters send one frame per payload unit (== 1),
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// some put an entire GOP into one payload unit (> 1), and
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// some spread a single frame over several payload units (< 0).
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int payloadUnitOfFrame;
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bool scanning;
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uint32_t scanner;
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public:
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cFrameDetector(int Pid = 0, int Type = 0);
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///< Sets up a frame detector for the given Pid and stream Type.
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///< If no Pid and Type is given, they need to be set by a separate
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///< call to SetPid().
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void SetPid(int Pid, int Type);
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///< Sets the Pid and stream Type to detect frames for.
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void Reset(void);
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///< Resets any counters and flags used while syncing and prepares
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///< the frame detector for actual work.
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int Analyze(const uchar *Data, int Length);
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///< Analyzes the TS packets pointed to by Data. Length is the number of
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///< bytes Data points to, and must be a multiple of 188.
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///< Returns the number of bytes that have been analyzed.
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///< If the return value is 0, the data was not sufficient for analyzing and
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///< Analyze() needs to be called again with more actual data.
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bool Synced(void) { return synced; }
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///< Returns true if the frame detector has synced on the data stream.
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bool NewFrame(void) { return newFrame; }
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///< Returns true if the data given to the last call to Analyze() started a
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///< new frame.
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bool IndependentFrame(void) { return independentFrame; }
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///< Returns true if a new frame was detected and this is an independent frame
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///< (i.e. one that can be displayed by itself, without using data from any
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///< other frames).
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double FramesPerSecond(void) { return frameDuration ? 90000.0 / frameDuration : 0; }
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///< Returns the number of frames per second, or 0 if this information is not
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///< available.
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};
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#endif // __REMUX_H
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