X-Git-Url: http://git.osdn.jp/view?a=blobdiff_plain;f=libhb%2Fdemuxmpeg.c;h=afeda30c732ddd1b6ed0654fa7bfd9bc2a82c8f8;hb=033e32de9c380f54c7d1362a3979da205ebc3a29;hp=051f2f6050207617802e1790d831307ba9c4bf68;hpb=13b046adca50f4a130b567bdcfadbddf5fd76cc9;p=handbrake-jp%2Fhandbrake-jp-git.git diff --git a/libhb/demuxmpeg.c b/libhb/demuxmpeg.c index 051f2f60..afeda30c 100644 --- a/libhb/demuxmpeg.c +++ b/libhb/demuxmpeg.c @@ -6,6 +6,44 @@ #include "hb.h" +static inline void check_mpeg_scr( hb_psdemux_t *state, int64_t scr, int tol ) +{ + /* + * This section of code implements the timing model of + * the "Standard Target Decoder" (STD) of the MPEG2 standard + * (specified in ISO 13818-1 sections 2.4.2, 2.5.2 & Annex D). + * The STD removes and corrects for clock discontinuities so + * that the time stamps on the video, audio & other media + * streams can be used for cross-media synchronization. To do + * this the STD has its own timestamp value, the System Clock + * Reference or SCR, in the PACK header. Clock discontinuities + * are detected using the SCR & and the adjustment needed + * to correct post-discontinuity timestamps to be contiguous + * with pre-discontinuity timestamps is computed from pre- and + * post-discontinuity values of the SCR. Then this adjustment + * is applied to every media timestamp (PTS). + * + * ISO 13818-1 says there must be an SCR at least every 700ms + * (100ms for Transport Streams) so if the difference between + * this SCR & the previous is >700ms it's a discontinuity. + * If the difference is negative it's non-physical (time doesn't + * go backward) and must also be a discontinuity. When we find a + * discontinuity we adjust the scr_offset so that the SCR of the + * new packet lines up with that of the previous packet. + */ + + // we declare a discontinuity if there's a gap of more than + // 'tol'ms between the last scr & this or if this scr goes back + // by more than half a frame time. + int64_t scr_delta = scr - state->last_scr; + if ( scr_delta > 90*tol || scr_delta < -90*10 ) + { + ++state->scr_changes; + state->last_pts = -1; + } + state->last_scr = scr; +} + /* Basic MPEG demuxer */ int hb_demux_ps( hb_buffer_t * buf_ps, hb_list_t * list_es, hb_psdemux_t* state ) @@ -27,29 +65,6 @@ int hb_demux_ps( hb_buffer_t * buf_ps, hb_list_t * list_es, hb_psdemux_t* state if ( state ) { - /* - * This section of code implements the timing model of - * the "Standard Target Decoder" (STD) of the MPEG2 standard - * (specified in ISO 13818-1 sections 2.4.2, 2.5.2 & Annex D). - * The STD removes and corrects for clock discontinuities so - * that the time stamps on the video, audio & other media - * streams can be used for cross-media synchronization. To do - * this the STD has its own timestamp value, the System Clock - * Reference or SCR, in the PACK header. Clock discontinuities - * are detected using the SCR & and the adjustment needed - * to correct post-discontinuity timestamps to be contiguous - * with pre-discontinuity timestamps is computed from pre- and - * post-discontinuity values of the SCR. Then this adjustment - * is applied to every media timestamp (PTS). - * - * ISO 13818-1 says there must be an SCR at least every 700ms - * (100ms for Transport Streams) so if the difference between - * this SCR & the previous is >700ms it's a discontinuity. - * If the difference is negative it's non-physical (time doesn't - * go backward) and must also be a discontinuity. When we find a - * discontinuity we adjust the scr_offset so that the SCR of the - * new packet lines up with that of the previous packet. - */ /* extract the system clock reference (scr) */ int64_t scr = ((uint64_t)(d[pos] & 0x38) << 27) | ((uint64_t)(d[pos] & 0x03) << 28) | @@ -58,13 +73,7 @@ int hb_demux_ps( hb_buffer_t * buf_ps, hb_list_t * list_es, hb_psdemux_t* state ((uint64_t)(d[pos+2] & 3) << 13) | ((uint64_t)(d[pos+3]) << 5) | (d[pos+4] >> 3); - int64_t scr_delta = scr - state->last_scr; - if ( scr_delta > (90*700) || scr_delta < 0 ) - { - ++state->scr_changes; - state->scr_offset += scr_delta - state->frame_duration; - } - state->last_scr = scr; + check_mpeg_scr( state, scr, 300 ); } pos += 9; /* pack_header */ @@ -184,22 +193,82 @@ int hb_demux_ps( hb_buffer_t * buf_ps, hb_list_t * list_es, hb_psdemux_t* state return 1; } +// mpeg transport stream demuxer. the elementary stream headers have been +// stripped off and buf_ps has all the info gleaned from them: id is set, +// start contains the pts (if any), renderOffset contains the dts (if any) +// and stop contains the pcr (if it changed). +int hb_demux_ts( hb_buffer_t *buf_ps, hb_list_t *list_es, hb_psdemux_t *state ) +{ + if ( state ) + { + // we're keeping track of timing (i.e., not in scan) + // check if there's a new pcr in this packet + if ( buf_ps->stop >= 0 ) + { + // we have a new pcr + check_mpeg_scr( state, buf_ps->stop, 300 ); + buf_ps->stop = -1; + } + if ( buf_ps->start >= 0 ) + { + // Program streams have an SCR in every PACK header so they + // can't lose their clock reference. But the PCR in Transport + // streams is typically on <.1% of the packets. If a PCR + // packet gets lost and it marks a clock discontinuity then + // the data following it will be referenced to the wrong + // clock & introduce huge gaps or throw our A/V sync off. + // We try to protect against that here by sanity checking + // timestamps against the current reference clock and discarding + // packets where the DTS is "too far" from its clock. + int64_t fdelta = buf_ps->start - state->last_scr; + if ( fdelta < -300 * 90000LL || fdelta > 300 * 90000LL ) + { + // packet too far behind or ahead of its clock reference + ++state->dts_drops; + return 1; + } + if ( state->last_pts >= 0 ) + { + fdelta = buf_ps->start - state->last_pts; + if ( fdelta < -5 * 90000LL || fdelta > 5 * 90000LL ) + { + // Packet too far from last. This may be a NZ TV broadcast + // as they like to change the PCR without sending a PCR + // update. Since it may be a while until they actually tell + // us the new PCR use the PTS as the PCR. + ++state->scr_changes; + state->last_scr = buf_ps->start; + } + } + state->last_pts = buf_ps->start; + } + } + + hb_buffer_t *buf = hb_buffer_init( buf_ps->alloc ); + hb_buffer_swap_copy( buf_ps, buf ); + hb_list_add( list_es, buf ); + + return 1; +} + // "null" demuxer (makes a copy of input buf & returns it in list) // used when the reader for some format includes its own demuxer. // for example, ffmpeg. int hb_demux_null( hb_buffer_t * buf_ps, hb_list_t * list_es, hb_psdemux_t* state ) { - hb_buffer_t *buf = hb_buffer_init( buf_ps->size ); - - // copy everything from the old to the new except the data ptr & alloc - uint8_t *data = buf->data; - int alloc = buf->alloc; - *buf = *buf_ps; - buf->data = data; - buf->alloc = alloc; + // if we don't have a time offset yet, use this timestamp as the offset. + if ( state && state->scr_changes == 0 && + ( buf_ps->start >= 0 || buf_ps->renderOffset >= 0 ) ) + { + ++state->scr_changes; + state->last_scr = buf_ps->start >= 0 ? buf_ps->start : buf_ps->renderOffset; + } - // now copy the data - memcpy( buf->data, buf_ps->data, buf_ps->size ); + hb_buffer_t *buf = hb_buffer_init( buf_ps->alloc ); + hb_buffer_swap_copy( buf_ps, buf ); hb_list_add( list_es, buf ); + return 1; } + +const hb_muxer_t hb_demux[] = { hb_demux_ps, hb_demux_ts, hb_demux_null };