/***************************************************************************** * ts.c: MPEG-II TS Muxer ***************************************************************************** * Copyright (C) 2001-2005 VLC authors and VideoLAN * $Id$ * * Authors: Laurent Aimar * Eric Petit * Jean-Paul Saman * Wallace Wadge * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA. *****************************************************************************/ /***************************************************************************** * Preamble *****************************************************************************/ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #include #include #include #include #include "bits.h" #include "pes.h" #include "csa.h" #include "tsutil.h" #include "streams.h" # include # include # include # include # include # include # include # include #include "dvbpsi_compat.h" #include "tables.h" #include "../../codec/jpeg2000.h" /* * TODO: * - check PCR frequency requirement * - check PAT/PMT " " * - check PCR/PCR "soft" * - check if "registration" descriptor : "AC-3" should be a program * descriptor or an es one. (xine want an es one) * * - remove creation of PAT/PMT without dvbpsi * - ? * FIXME: * - subtitle support is far from perfect. I expect some subtitles drop * if they arrive a bit late * (We cannot rely on the fact that the fifo should be full) */ /***************************************************************************** * Callback prototypes *****************************************************************************/ static int ChangeKeyCallback ( vlc_object_t *, char const *, vlc_value_t, vlc_value_t, void * ); static int ActiveKeyCallback ( vlc_object_t *, char const *, vlc_value_t, vlc_value_t, void * ); /***************************************************************************** * Module descriptor *****************************************************************************/ static int Open ( vlc_object_t * ); static void Close ( vlc_object_t * ); static const char *const ts_standards_list[] = { "dvb", "atsc", }; static const char *const ts_standards_list_text[] = { "DVB", "ATSC", }; #define STANDARD_TEXT N_("Digital TV Standard") #define VPID_TEXT N_("Video PID") #define VPID_LONGTEXT N_("Assign a fixed PID to the video stream. The PCR " \ "PID will automatically be the video.") #define APID_TEXT N_("Audio PID") #define APID_LONGTEXT N_("Assign a fixed PID to the audio stream.") #define SPUPID_TEXT N_("SPU PID") #define SPUPID_LONGTEXT N_("Assign a fixed PID to the SPU.") #define PMTPID_TEXT N_("PMT PID") #define PMTPID_LONGTEXT N_("Assign a fixed PID to the PMT") #define TSID_TEXT N_("TS ID") #define TSID_LONGTEXT N_("Assign a fixed Transport Stream ID.") #define NETID_TEXT N_("NET ID") #define NETID_LONGTEXT N_("Assign a fixed Network ID (for SDT table)") #define PMTPROG_TEXT N_("PMT Program numbers") #define PMTPROG_LONGTEXT N_("Assign a program number to each PMT. This " \ "requires \"Set PID to ID of ES\" to be enabled." ) #define MUXPMT_TEXT N_("Mux PMT (requires --sout-ts-es-id-pid)") #define MUXPMT_LONGTEXT N_("Define the pids to add to each pmt. This " \ "requires \"Set PID to ID of ES\" to be enabled." ) #define SDTDESC_TEXT N_("SDT Descriptors (requires --sout-ts-es-id-pid)") #define SDTDESC_LONGTEXT N_("Defines the descriptors of each SDT. This " \ "requires \"Set PID to ID of ES\" to be enabled." ) #define PID_TEXT N_("Set PID to ID of ES") #define PID_LONGTEXT N_("Sets PID to the ID if the incoming ES. This is for " \ "use with --ts-es-id-pid, and allows having the same PIDs in the input " \ "and output streams.") #define ALIGNMENT_TEXT N_("Data alignment") #define ALIGNMENT_LONGTEXT N_("Enforces alignment of all access units on " \ "PES boundaries. Disabling this might save some bandwidth but introduce incompatibilities.") #define SHAPING_TEXT N_("Shaping delay (ms)") #define SHAPING_LONGTEXT N_("Cut the " \ "stream in slices of the given duration, and ensure a constant bitrate " \ "between the two boundaries. This avoids having huge bitrate peaks, " \ "especially for reference frames." ) #define KEYF_TEXT N_("Use keyframes") #define KEYF_LONGTEXT N_("If enabled, and shaping is specified, " \ "the TS muxer will place the boundaries at the end of I pictures. In " \ "that case, the shaping duration given by the user is a worse case " \ "used when no reference frame is available. This enhances the efficiency " \ "of the shaping algorithm, since I frames are usually the biggest " \ "frames in the stream.") #define PCR_TEXT N_("PCR interval (ms)") #define PCR_LONGTEXT N_("Set at which interval " \ "PCRs (Program Clock Reference) will be sent (in milliseconds). " \ "This value should be below 100ms. (default is 70ms).") #define BMIN_TEXT N_( "Minimum B (deprecated)") #define BMIN_LONGTEXT N_( "This setting is deprecated and not used anymore" ) #define BMAX_TEXT N_( "Maximum B (deprecated)") #define BMAX_LONGTEXT N_( "This setting is deprecated and not used anymore") #define DTS_TEXT N_("DTS delay (ms)") #define DTS_LONGTEXT N_("Delay the DTS (decoding time " \ "stamps) and PTS (presentation timestamps) of the data in the " \ "stream, compared to the PCRs. This allows for some buffering inside " \ "the client decoder.") #define ACRYPT_TEXT N_("Crypt audio") #define ACRYPT_LONGTEXT N_("Crypt audio using CSA") #define VCRYPT_TEXT N_("Crypt video") #define VCRYPT_LONGTEXT N_("Crypt video using CSA") #define CK_TEXT N_("CSA Key") #define CK_LONGTEXT N_("CSA encryption key. This must be a " \ "16 char string (8 hexadecimal bytes).") #define CK2_TEXT N_("Second CSA Key") #define CK2_LONGTEXT N_("The even CSA encryption key. This must be a " \ "16 char string (8 hexadecimal bytes).") #define CU_TEXT N_("CSA Key in use") #define CU_LONGTEXT N_("CSA encryption key used. It can be the odd/first/1 " \ "(default) or the even/second/2 one.") #define CPKT_TEXT N_("Packet size in bytes to encrypt") #define CPKT_LONGTEXT N_("Size of the TS packet to encrypt. " \ "The encryption routines subtract the TS-header from the value before " \ "encrypting." ) #define SOUT_CFG_PREFIX "sout-ts-" #define MAX_PMT 64 /* Maximum number of programs. FIXME: I just chose an arbitrary number. Where is the maximum in the spec? */ #define MAX_PMT_PID 64 /* Maximum pids in each pmt. FIXME: I just chose an arbitrary number. Where is the maximum in the spec? */ #if MAX_SDT_DESC < MAX_PMT #error "MAX_SDT_DESC < MAX_PMT" #endif #define BLOCK_FLAG_NO_KEYFRAME (1 << BLOCK_FLAG_PRIVATE_SHIFT) /* This is not a key frame for bitrate shaping */ vlc_module_begin () set_description( N_("TS muxer (libdvbpsi)") ) set_shortname( "MPEG-TS") set_category( CAT_SOUT ) set_subcategory( SUBCAT_SOUT_MUX ) set_capability( "sout mux", 120 ) add_shortcut( "ts" ) add_string( SOUT_CFG_PREFIX "standard", "dvb", STANDARD_TEXT, NULL, true ) change_string_list( ts_standards_list, ts_standards_list_text ) add_integer(SOUT_CFG_PREFIX "pid-video", 100, VPID_TEXT, VPID_LONGTEXT, true) change_integer_range( 32, 8190 ) add_integer(SOUT_CFG_PREFIX "pid-audio", 200, APID_TEXT, APID_LONGTEXT, true) change_integer_range( 32, 8190 ) add_integer(SOUT_CFG_PREFIX "pid-spu", 300, SPUPID_TEXT, SPUPID_LONGTEXT, true) change_integer_range( 32, 8190 ) add_integer(SOUT_CFG_PREFIX "pid-pmt", 32, PMTPID_TEXT, PMTPID_LONGTEXT, true) change_integer_range( 32, 8190 ) add_integer(SOUT_CFG_PREFIX "tsid", 0, TSID_TEXT, TSID_LONGTEXT, true) add_integer(SOUT_CFG_PREFIX "netid", 0, NETID_TEXT, NETID_LONGTEXT, true) add_string(SOUT_CFG_PREFIX "program-pmt", NULL, PMTPROG_TEXT, PMTPROG_LONGTEXT, true) add_bool(SOUT_CFG_PREFIX "es-id-pid", false, PID_TEXT, PID_LONGTEXT, true) add_string(SOUT_CFG_PREFIX "muxpmt", NULL, MUXPMT_TEXT, MUXPMT_LONGTEXT, true) add_string(SOUT_CFG_PREFIX "sdtdesc", NULL, SDTDESC_TEXT, SDTDESC_LONGTEXT, true) add_bool(SOUT_CFG_PREFIX "alignment", true, ALIGNMENT_TEXT, ALIGNMENT_LONGTEXT, true) add_integer(SOUT_CFG_PREFIX "shaping", 200, SHAPING_TEXT, SHAPING_LONGTEXT, true) add_bool(SOUT_CFG_PREFIX "use-key-frames", false, KEYF_TEXT, KEYF_LONGTEXT, true) add_integer( SOUT_CFG_PREFIX "pcr", 70, PCR_TEXT, PCR_LONGTEXT, true) add_integer( SOUT_CFG_PREFIX "bmin", 0, BMIN_TEXT, BMIN_LONGTEXT, true) add_integer( SOUT_CFG_PREFIX "bmax", 0, BMAX_TEXT, BMAX_LONGTEXT, true) add_integer( SOUT_CFG_PREFIX "dts-delay", 400, DTS_TEXT, DTS_LONGTEXT, true) add_bool( SOUT_CFG_PREFIX "crypt-audio", true, ACRYPT_TEXT, ACRYPT_LONGTEXT, true) add_bool( SOUT_CFG_PREFIX "crypt-video", true, VCRYPT_TEXT, VCRYPT_LONGTEXT, true) add_string( SOUT_CFG_PREFIX "csa-ck", NULL, CK_TEXT, CK_LONGTEXT, true) add_string( SOUT_CFG_PREFIX "csa2-ck", NULL, CK2_TEXT, CK2_LONGTEXT, true) add_string( SOUT_CFG_PREFIX "csa-use", "1", CU_TEXT, CU_LONGTEXT, true) add_integer(SOUT_CFG_PREFIX "csa-pkt", 188, CPKT_TEXT, CPKT_LONGTEXT, true) set_callbacks( Open, Close ) vlc_module_end () /***************************************************************************** * Local data structures *****************************************************************************/ static const char *const ppsz_sout_options[] = { "standard", "pid-video", "pid-audio", "pid-spu", "pid-pmt", "tsid", "netid", "sdtdesc", "es-id-pid", "shaping", "pcr", "bmin", "bmax", "use-key-frames", "dts-delay", "csa-ck", "csa2-ck", "csa-use", "csa-pkt", "crypt-audio", "crypt-video", "muxpmt", "program-pmt", "alignment", NULL }; typedef struct pmt_map_t /* Holds the mapping between the pmt-pid/pmt table */ { int i_pid; unsigned i_prog; } pmt_map_t; typedef struct { int i_depth; block_t *p_first; block_t **pp_last; } sout_buffer_chain_t; static inline void BufferChainInit ( sout_buffer_chain_t *c ) { c->i_depth = 0; c->p_first = NULL; c->pp_last = &c->p_first; } static inline void BufferChainAppend( sout_buffer_chain_t *c, block_t *b ) { *c->pp_last = b; c->i_depth++; while( b->p_next ) { b = b->p_next; c->i_depth++; } c->pp_last = &b->p_next; } static inline block_t *BufferChainGet( sout_buffer_chain_t *c ) { block_t *b = c->p_first; if( b ) { c->i_depth--; c->p_first = b->p_next; if( c->p_first == NULL ) { c->pp_last = &c->p_first; } b->p_next = NULL; } return b; } static inline block_t *BufferChainPeek( sout_buffer_chain_t *c ) { block_t *b = c->p_first; return b; } static inline void BufferChainClean( sout_buffer_chain_t *c ) { block_t *b; while( ( b = BufferChainGet( c ) ) ) { block_Release( b ); } BufferChainInit( c ); } typedef struct { sout_buffer_chain_t chain_pes; vlc_tick_t i_pes_dts; vlc_tick_t i_pes_length; int i_pes_used; bool b_key_frame; } pes_state_t; typedef struct { tsmux_stream_t ts; pesmux_stream_t pes; pes_state_t state; } sout_input_sys_t; struct sout_mux_sys_t { sout_input_t *p_pcr_input; vlc_mutex_t csa_lock; dvbpsi_t *p_dvbpsi; bool b_es_id_pid; int i_pid_video; int i_pid_audio; int i_pid_spu; int i_tsid; unsigned i_num_pmt; int i_pmtslots; int i_pat_version_number; tsmux_stream_t pat; int i_pmt_version_number; tsmux_stream_t pmt[MAX_PMT]; pmt_map_t pmtmap[MAX_PMT_PID]; int i_pmt_program_number[MAX_PMT]; bool b_data_alignment; sdt_psi_t sdt; ts_mux_standard standard; /* for TS building */ int64_t i_bitrate_min; int64_t i_bitrate_max; int64_t i_shaping_delay; int64_t i_pcr_delay; int64_t i_dts_delay; vlc_tick_t first_dts; bool b_use_key_frames; vlc_tick_t i_pcr; /* last PCR emitted */ csa_t *csa; int i_csa_pkt_size; bool b_crypt_audio; bool b_crypt_video; }; static int GetNextFreePID( sout_mux_t *p_mux, int i_pid_start ) { sout_mux_sys_t *p_sys = p_mux->p_sys; restart: for(unsigned i=i_pid_start; ii_num_pmt; i++) { if(p_sys->pmt[i].i_pid == i_pid_start) { i_pid_start++; goto restart; } } for(int i=0; ii_nb_inputs; i++) { sout_input_sys_t *p_stream = (sout_input_sys_t*)p_mux->pp_inputs[i]->p_sys; if(p_stream->ts.i_pid == i_pid_start) { i_pid_start++; goto restart; } } if( i_pid_start > 8190 ) { i_pid_start = 32; goto restart; } return i_pid_start; } /* Reserve a pid and return it */ static int AllocatePID( sout_mux_t *p_mux, int i_cat ) { sout_mux_sys_t *p_sys = p_mux->p_sys; int i_pid; int *pi_candidate_pid = NULL; switch( i_cat ) { case VIDEO_ES: pi_candidate_pid = &p_sys->i_pid_video; break; case AUDIO_ES: pi_candidate_pid = &p_sys->i_pid_audio; break; case SPU_ES: default: pi_candidate_pid = &p_sys->i_pid_spu; break; } *pi_candidate_pid = GetNextFreePID( p_mux, *pi_candidate_pid ); i_pid = (*pi_candidate_pid)++; return i_pid; } static int pmtcompare( const void *pa, const void *pb ) { int id1 = ((pmt_map_t *)pa)->i_pid; int id2 = ((pmt_map_t *)pb)->i_pid; return id1 - id2; } static int intcompare( const void *pa, const void *pb ) { return *(int*)pa - *(int*)pb; } /***************************************************************************** * Local prototypes *****************************************************************************/ static int Control ( sout_mux_t *, int, va_list ); static int AddStream( sout_mux_t *, sout_input_t * ); static void DelStream( sout_mux_t *, sout_input_t * ); static int Mux ( sout_mux_t * ); static block_t *FixPES( sout_mux_t *p_mux, block_fifo_t *p_fifo ); static block_t *Add_ADTS( block_t *, const es_format_t * ); static void TSSchedule ( sout_mux_t *p_mux, sout_buffer_chain_t *p_chain_ts, vlc_tick_t i_pcr_length, vlc_tick_t i_pcr_dts ); static void TSDate ( sout_mux_t *p_mux, sout_buffer_chain_t *p_chain_ts, vlc_tick_t i_pcr_length, vlc_tick_t i_pcr_dts ); static void GetPAT( sout_mux_t *p_mux, sout_buffer_chain_t *c ); static void GetPMT( sout_mux_t *p_mux, sout_buffer_chain_t *c ); static block_t *TSNew( sout_mux_t *p_mux, sout_input_sys_t *p_stream, bool b_pcr ); static void TSSetPCR( block_t *p_ts, vlc_tick_t i_dts ); static csa_t *csaSetup( vlc_object_t *p_this ) { sout_mux_t *p_mux = (sout_mux_t*)p_this; sout_mux_sys_t *p_sys = p_mux->p_sys; char *csack = var_CreateGetNonEmptyStringCommand( p_mux, SOUT_CFG_PREFIX "csa-ck" ); if( !csack ) return NULL; csa_t *csa = csa_New(); if( csa_SetCW( p_this, csa, csack, true ) ) { free(csack); csa_Delete( csa ); return NULL; } vlc_mutex_init( &p_sys->csa_lock ); p_sys->b_crypt_audio = var_GetBool( p_mux, SOUT_CFG_PREFIX "crypt-audio" ); p_sys->b_crypt_video = var_GetBool( p_mux, SOUT_CFG_PREFIX "crypt-video" ); char *csa2ck = var_CreateGetNonEmptyStringCommand( p_mux, SOUT_CFG_PREFIX "csa2-ck"); if (!csa2ck || csa_SetCW( p_this, csa, csa2ck, false ) ) csa_SetCW( p_this, csa, csack, false ); free(csa2ck); var_Create( p_mux, SOUT_CFG_PREFIX "csa-use", VLC_VAR_STRING | VLC_VAR_DOINHERIT | VLC_VAR_ISCOMMAND ); var_AddCallback( p_mux, SOUT_CFG_PREFIX "csa-use", ActiveKeyCallback, NULL ); var_AddCallback( p_mux, SOUT_CFG_PREFIX "csa-ck", ChangeKeyCallback, (void *)1 ); var_AddCallback( p_mux, SOUT_CFG_PREFIX "csa2-ck", ChangeKeyCallback, NULL ); vlc_value_t use_val; var_Get( p_mux, SOUT_CFG_PREFIX "csa-use", &use_val ); if ( var_Set( p_mux, SOUT_CFG_PREFIX "csa-use", use_val ) ) var_SetString( p_mux, SOUT_CFG_PREFIX "csa-use", "odd" ); free( use_val.psz_string ); p_sys->i_csa_pkt_size = var_GetInteger( p_mux, SOUT_CFG_PREFIX "csa-pkt" ); if( p_sys->i_csa_pkt_size < 12 || p_sys->i_csa_pkt_size > 188 ) { msg_Err( p_mux, "wrong packet size %d specified", p_sys->i_csa_pkt_size ); p_sys->i_csa_pkt_size = 188; } msg_Dbg( p_mux, "encrypting %d bytes of packet", p_sys->i_csa_pkt_size ); free(csack); return csa; } /***************************************************************************** * Open: *****************************************************************************/ static int Open( vlc_object_t *p_this ) { sout_mux_t *p_mux =(sout_mux_t*)p_this; sout_mux_sys_t *p_sys = NULL; config_ChainParse( p_mux, SOUT_CFG_PREFIX, ppsz_sout_options, p_mux->p_cfg ); p_sys = calloc( 1, sizeof( sout_mux_sys_t ) ); if( !p_sys ) return VLC_ENOMEM; p_sys->i_num_pmt = 1; p_sys->p_dvbpsi = dvbpsi_new( &dvbpsi_messages, DVBPSI_MSG_DEBUG ); if( !p_sys->p_dvbpsi ) { free( p_sys ); return VLC_ENOMEM; } p_sys->p_dvbpsi->p_sys = (void *) p_mux; char *psz_standard = var_GetString( p_mux, SOUT_CFG_PREFIX "standard" ); if( psz_standard && !strcmp("atsc", psz_standard) ) p_sys->standard = TS_MUX_STANDARD_ATSC; free( psz_standard ); p_sys->b_es_id_pid = var_GetBool( p_mux, SOUT_CFG_PREFIX "es-id-pid" ); /* fetch string of pmts. Here's a sample: --sout-ts-muxpmt="0x451,0x200,0x28a,0x240,,0x450,0x201,0x28b,0x241,,0x452,0x202,0x28c,0x242" This would mean 0x451, 0x200, 0x28a, 0x240 would fall under one pmt (program), 0x450,0x201,0x28b,0x241 would fall under another */ char *muxpmt = var_GetNonEmptyString(p_mux, SOUT_CFG_PREFIX "muxpmt"); for (char *psz = muxpmt; psz; ) { char *psz_next; uint16_t i_pid = strtoul( psz, &psz_next, 0 ); psz = *psz_next ? &psz_next[1] : NULL; if ( i_pid == 0 ) { if ( ++p_sys->i_num_pmt > MAX_PMT ) { msg_Err( p_mux, "Number of PMTs > %d)", MAX_PMT ); p_sys->i_num_pmt = MAX_PMT; } } else { p_sys->pmtmap[p_sys->i_pmtslots].i_pid = i_pid; p_sys->pmtmap[p_sys->i_pmtslots].i_prog = p_sys->i_num_pmt - 1; if ( ++p_sys->i_pmtslots >= MAX_PMT_PID ) { msg_Err( p_mux, "Number of pids in PMT > %d", MAX_PMT_PID ); p_sys->i_pmtslots = MAX_PMT_PID - 1; } } } /* Now sort according to pids for fast search later on */ qsort( (void *)p_sys->pmtmap, p_sys->i_pmtslots, sizeof(pmt_map_t), pmtcompare ); free(muxpmt); unsigned short subi[3]; vlc_rand_bytes(subi, sizeof(subi)); p_sys->i_pat_version_number = nrand48(subi) & 0x1f; vlc_value_t val; var_Get( p_mux, SOUT_CFG_PREFIX "tsid", &val ); if ( val.i_int ) p_sys->i_tsid = val.i_int; else p_sys->i_tsid = nrand48(subi) & 0xffff; var_Get( p_mux, SOUT_CFG_PREFIX "netid", &val ); if ( val.i_int ) p_sys->sdt.i_netid = val.i_int; else p_sys->sdt.i_netid = 0xff00 | ( nrand48(subi) & 0xfa ); p_sys->i_pmt_version_number = nrand48(subi) & 0x1f; p_sys->sdt.ts.i_pid = 0x11; char *sdtdesc = var_GetNonEmptyString( p_mux, SOUT_CFG_PREFIX "sdtdesc" ); /* Syntax is provider_sdt1,service_name_sdt1,provider_sdt2,service_name_sdt2... */ if( sdtdesc ) { char *psz_sdttoken = sdtdesc; for (int i = 0; i < MAX_SDT_DESC * 2 && psz_sdttoken; i++) { char *psz_end = strchr( psz_sdttoken, ',' ); if ( psz_end ) *psz_end++ = '\0'; if (i % 2) p_sys->sdt.desc[i/2].psz_service_name = FromLocaleDup( psz_sdttoken ); else p_sys->sdt.desc[i/2].psz_provider = FromLocaleDup( psz_sdttoken ); psz_sdttoken = psz_end; } free(sdtdesc); } p_sys->b_data_alignment = var_GetBool( p_mux, SOUT_CFG_PREFIX "alignment" ); char *pgrpmt = var_GetNonEmptyString(p_mux, SOUT_CFG_PREFIX "program-pmt"); if( pgrpmt ) { char *psz = pgrpmt; char *psz_next = psz; for (int i = 0; psz; ) { uint16_t i_pid = strtoul( psz, &psz_next, 0 ); if( psz_next[0] != '\0' ) psz = &psz_next[1]; else psz = NULL; if( i_pid == 0 ) { if( i >= MAX_PMT ) msg_Err( p_mux, "Number of PMTs > maximum (%d)", MAX_PMT ); } else { p_sys->i_pmt_program_number[i] = i_pid; i++; } } free(pgrpmt); } else { /* Option not specified, use 1, 2, 3... */ for (unsigned i = 0; i < p_sys->i_num_pmt; i++ ) p_sys->i_pmt_program_number[i] = i + 1; } var_Get( p_mux, SOUT_CFG_PREFIX "pid-pmt", &val ); for (unsigned i = 0; i < p_sys->i_num_pmt; i++ ) p_sys->pmt[i].i_pid = val.i_int + i; p_sys->i_pid_video = var_GetInteger( p_mux, SOUT_CFG_PREFIX "pid-video" ); p_sys->i_pid_audio = var_GetInteger( p_mux, SOUT_CFG_PREFIX "pid-audio" ); p_sys->i_pid_spu = var_GetInteger( p_mux, SOUT_CFG_PREFIX "pid-spu" ); /* Allow to create constrained stream */ p_sys->i_bitrate_min = var_GetInteger( p_mux, SOUT_CFG_PREFIX "bmin" ); p_sys->i_bitrate_max = var_GetInteger( p_mux, SOUT_CFG_PREFIX "bmax" ); if( p_sys->i_bitrate_min > 0 && p_sys->i_bitrate_max > 0 && p_sys->i_bitrate_min > p_sys->i_bitrate_max ) { msg_Err( p_mux, "incompatible minimum and maximum bitrate, " "disabling bitrate control" ); p_sys->i_bitrate_min = 0; p_sys->i_bitrate_max = 0; } if( p_sys->i_bitrate_min > 0 || p_sys->i_bitrate_max > 0 ) { msg_Err( p_mux, "bmin and bmax no more supported " "(if you need them report it)" ); } var_Get( p_mux, SOUT_CFG_PREFIX "shaping", &val ); p_sys->i_shaping_delay = val.i_int * 1000; if( p_sys->i_shaping_delay <= 0 ) { msg_Err( p_mux, "invalid shaping (%"PRId64"ms) resetting to 200ms", p_sys->i_shaping_delay / 1000 ); p_sys->i_shaping_delay = 200000; } var_Get( p_mux, SOUT_CFG_PREFIX "pcr", &val ); p_sys->i_pcr_delay = val.i_int * 1000; if( p_sys->i_pcr_delay <= 0 || p_sys->i_pcr_delay >= p_sys->i_shaping_delay ) { msg_Err( p_mux, "invalid pcr delay (%"PRId64"ms) resetting to 70ms", p_sys->i_pcr_delay / 1000 ); p_sys->i_pcr_delay = 70000; } var_Get( p_mux, SOUT_CFG_PREFIX "dts-delay", &val ); p_sys->i_dts_delay = val.i_int * 1000; msg_Dbg( p_mux, "shaping=%"PRId64" pcr=%"PRId64" dts_delay=%"PRId64, p_sys->i_shaping_delay, p_sys->i_pcr_delay, p_sys->i_dts_delay ); p_sys->b_use_key_frames = var_GetBool( p_mux, SOUT_CFG_PREFIX "use-key-frames" ); p_mux->p_sys = p_sys; p_sys->csa = csaSetup(p_this); p_mux->pf_control = Control; p_mux->pf_addstream = AddStream; p_mux->pf_delstream = DelStream; p_mux->pf_mux = Mux; return VLC_SUCCESS; } /***************************************************************************** * Close: *****************************************************************************/ static void Close( vlc_object_t * p_this ) { sout_mux_t *p_mux = (sout_mux_t*)p_this; sout_mux_sys_t *p_sys = p_mux->p_sys; if( p_sys->p_dvbpsi ) dvbpsi_delete( p_sys->p_dvbpsi ); if( p_sys->csa ) { var_DelCallback( p_mux, SOUT_CFG_PREFIX "csa-ck", ChangeKeyCallback, NULL ); var_DelCallback( p_mux, SOUT_CFG_PREFIX "csa2-ck", ChangeKeyCallback, NULL ); var_DelCallback( p_mux, SOUT_CFG_PREFIX "csa-use", ActiveKeyCallback, NULL ); csa_Delete( p_sys->csa ); vlc_mutex_destroy( &p_sys->csa_lock ); } for (int i = 0; i < MAX_SDT_DESC; i++ ) { free( p_sys->sdt.desc[i].psz_service_name ); free( p_sys->sdt.desc[i].psz_provider ); } free( p_sys ); } /***************************************************************************** * ChangeKeyCallback: called when changing the odd encryption key on the fly. *****************************************************************************/ static int ChangeKeyCallback( vlc_object_t *p_this, char const *psz_cmd, vlc_value_t oldval, vlc_value_t newval, void *p_data ) { VLC_UNUSED(psz_cmd); VLC_UNUSED(oldval); sout_mux_t *p_mux = (sout_mux_t*)p_this; sout_mux_sys_t *p_sys = p_mux->p_sys; int ret; vlc_mutex_lock(&p_sys->csa_lock); ret = csa_SetCW(p_this, p_sys->csa, newval.psz_string, !!(intptr_t)p_data); vlc_mutex_unlock(&p_sys->csa_lock); return ret; } /***************************************************************************** * ActiveKeyCallback: called when changing the active (in use) encryption key on the fly. *****************************************************************************/ static int ActiveKeyCallback( vlc_object_t *p_this, char const *psz_cmd, vlc_value_t oldval, vlc_value_t newval, void *p_data ) { VLC_UNUSED(psz_cmd); VLC_UNUSED(oldval); VLC_UNUSED(p_data); sout_mux_t *p_mux = (sout_mux_t*)p_this; sout_mux_sys_t *p_sys = p_mux->p_sys; int i_res, use_odd = -1; if( !strcmp(newval.psz_string, "odd" ) || !strcmp(newval.psz_string, "first" ) || !strcmp(newval.psz_string, "1" ) ) { use_odd = 1; } else if( !strcmp(newval.psz_string, "even" ) || !strcmp(newval.psz_string, "second" ) || !strcmp(newval.psz_string, "2" ) ) { use_odd = 0; } if (use_odd < 0) return VLC_EBADVAR; vlc_mutex_lock( &p_sys->csa_lock ); i_res = csa_UseKey( p_this, p_sys->csa, use_odd ); vlc_mutex_unlock( &p_sys->csa_lock ); return i_res; } /***************************************************************************** * Control: *****************************************************************************/ static int Control( sout_mux_t *p_mux, int i_query, va_list args ) { VLC_UNUSED(p_mux); bool *pb_bool; char **ppsz; switch( i_query ) { case MUX_CAN_ADD_STREAM_WHILE_MUXING: pb_bool = va_arg( args, bool * ); *pb_bool = true; return VLC_SUCCESS; case MUX_GET_ADD_STREAM_WAIT: pb_bool = va_arg( args, bool * ); *pb_bool = false; return VLC_SUCCESS; case MUX_GET_MIME: ppsz = va_arg( args, char ** ); *ppsz = strdup( "video/mp2t" ); return VLC_SUCCESS; default: return VLC_EGENERIC; } } /* returns a pointer to a valid string, with length 0 or 3 */ static const char *GetIso639_2LangCode(const char *lang) { const iso639_lang_t *pl; if (strlen(lang) == 2) { pl = GetLang_1(lang); } else { pl = GetLang_2B(lang); /* try native code first */ if (!*pl->psz_iso639_2T) pl = GetLang_2T(lang); /* else fallback to english code */ } return pl->psz_iso639_2T; /* returns the english code */ } static void SelectPCRStream( sout_mux_t *p_mux, sout_input_t *p_removed_pcr_input ) { sout_mux_sys_t *p_sys = p_mux->p_sys; /* Find a new pcr stream (Prefer Video Stream) */ if( p_removed_pcr_input != NULL ) p_sys->p_pcr_input = NULL; for ( int i = 0; i < p_mux->i_nb_inputs; i++ ) { sout_input_t *p_input = p_mux->pp_inputs[i]; if( p_input == p_removed_pcr_input ) continue; if( p_input->p_fmt->i_cat == VIDEO_ES && (p_sys->p_pcr_input == NULL || p_sys->p_pcr_input->p_fmt->i_cat != VIDEO_ES) ) { p_sys->p_pcr_input = p_input; break; } else if( p_input->p_fmt->i_cat != SPU_ES && p_sys->p_pcr_input == NULL ) { p_sys->p_pcr_input = p_input; } } if( p_sys->p_pcr_input ) { /* Empty TS buffer */ /* FIXME */ msg_Dbg( p_mux, "new PCR PID is %d", ((sout_input_sys_t *)p_sys->p_pcr_input->p_sys)->ts.i_pid ); } } /***************************************************************************** * AddStream: called for each stream addition *****************************************************************************/ static int AddStream( sout_mux_t *p_mux, sout_input_t *p_input ) { sout_mux_sys_t *p_sys = p_mux->p_sys; sout_input_sys_t *p_stream; p_input->p_sys = p_stream = calloc( 1, sizeof( sout_input_sys_t ) ); if( !p_stream ) goto oom; if ( p_sys->b_es_id_pid ) p_stream->ts.i_pid = p_input->fmt.i_id & 0x1fff; else p_stream->ts.i_pid = AllocatePID( p_mux, p_input->p_fmt->i_cat ); if( FillPMTESParams( p_sys->standard, p_input->p_fmt, &p_stream->ts, &p_stream->pes ) != VLC_SUCCESS ) { msg_Warn( p_mux, "rejecting stream with unsupported codec %4.4s", (char*)&p_input->p_fmt->i_codec ); free( p_stream ); return VLC_EGENERIC; } p_stream->pes.i_langs = 1 + p_input->p_fmt->i_extra_languages; p_stream->pes.lang = calloc(1, p_stream->pes.i_langs * 4); if( !p_stream->pes.lang ) goto oom; msg_Dbg( p_mux, "adding input codec=%4.4s pid=%d", (char*)&p_input->fmt.i_codec, p_stream->ts.i_pid ); for (size_t i = 0; i < p_stream->pes.i_langs; i++) { char *lang = (i == 0) ? p_input->p_fmt->psz_language : p_input->p_fmt->p_extra_languages[i-1].psz_language; if (!lang) continue; const char *code = GetIso639_2LangCode(lang); if (*code) { memcpy(&p_stream->pes.lang[i*4], code, 3); p_stream->pes.lang[i*4+3] = 0x00; /* audio type: 0x00 undefined */ msg_Dbg( p_mux, " - lang=%3.3s", &p_stream->pes.lang[i*4] ); } } /* Init pes chain */ BufferChainInit( &p_stream->state.chain_pes ); /* We only change PMT version (PAT isn't changed) */ p_sys->i_pmt_version_number = ( p_sys->i_pmt_version_number + 1 )%32; /* Update pcr_pid */ SelectPCRStream( p_mux, NULL ); return VLC_SUCCESS; oom: if(p_stream) { free(p_stream->pes.lang); free(p_stream); } return VLC_ENOMEM; } /***************************************************************************** * DelStream: called before a stream deletion *****************************************************************************/ static void DelStream( sout_mux_t *p_mux, sout_input_t *p_input ) { sout_mux_sys_t *p_sys = p_mux->p_sys; sout_input_sys_t *p_stream = (sout_input_sys_t*)p_input->p_sys; int pid; msg_Dbg( p_mux, "removing input pid=%d", p_stream->ts.i_pid ); if( p_sys->p_pcr_input == p_input ) { /* Repick new PCR */ SelectPCRStream( p_mux, p_input ); } /* Empty all data in chain_pes */ BufferChainClean( &p_stream->state.chain_pes ); pid = var_GetInteger( p_mux, SOUT_CFG_PREFIX "pid-video" ); if ( pid > 0 && pid == p_stream->ts.i_pid ) { p_sys->i_pid_video = pid; msg_Dbg( p_mux, "freeing video PID %d", pid); } pid = var_GetInteger( p_mux, SOUT_CFG_PREFIX "pid-audio" ); if ( pid > 0 && pid == p_stream->ts.i_pid ) { p_sys->i_pid_audio = pid; msg_Dbg( p_mux, "freeing audio PID %d", pid); } pid = var_GetInteger( p_mux, SOUT_CFG_PREFIX "pid-spu" ); if ( pid > 0 && pid == p_stream->ts.i_pid ) { p_sys->i_pid_spu = pid; msg_Dbg( p_mux, "freeing spu PID %d", pid); } free(p_stream->pes.lang); free( p_stream ); /* We only change PMT version (PAT isn't changed) */ p_sys->i_pmt_version_number++; p_sys->i_pmt_version_number %= 32; } static void SetHeader( sout_buffer_chain_t *c, int depth ) { block_t *p_ts = BufferChainPeek( c ); while( depth > 0 ) { p_ts = p_ts->p_next; depth--; } p_ts->i_flags |= BLOCK_FLAG_HEADER; } static block_t *Pack_Opus(block_t *p_data) { lldiv_t d = lldiv(p_data->i_buffer, 255); p_data = block_Realloc(p_data, 2 + d.quot + 1, p_data->i_buffer); if (p_data) { /* no flags */ p_data->p_buffer[0] = 0x7f; p_data->p_buffer[1] = 0xe0; memset(&p_data->p_buffer[2], 0xff, d.quot); p_data->p_buffer[2+d.quot] = d.rem; } return p_data; } static void SetBlockDuration( sout_input_t *p_input, block_t *p_data ) { sout_input_sys_t *p_stream = (sout_input_sys_t*) p_input->p_sys; if( p_input->p_fmt->i_cat != SPU_ES && block_FifoCount( p_input->p_fifo ) > 0 ) { block_t *p_next = block_FifoShow( p_input->p_fifo ); vlc_tick_t i_diff = p_next->i_dts - p_data->i_dts; if( i_diff > 0 && (p_next->i_flags & BLOCK_FLAG_DISCONTINUITY) == 0 ) { p_data->i_length = i_diff; } else if ( p_data->i_length == 0 ) { /* Try rates */ if( p_input->p_fmt->i_cat == VIDEO_ES && p_input->p_fmt->video.i_frame_rate && p_input->p_fmt->video.i_frame_rate_base ) { p_data->i_length = CLOCK_FREQ * p_input->p_fmt->video.i_frame_rate / p_input->p_fmt->video.i_frame_rate_base; } else if( p_input->p_fmt->i_cat == AUDIO_ES && p_input->p_fmt->audio.i_bytes_per_frame && p_input->p_fmt->audio.i_frame_length ) { p_data->i_length = p_data->i_buffer * p_input->p_fmt->audio.i_frame_length / p_input->p_fmt->audio.i_bytes_per_frame; } /* Try a previous duration */ else if( p_stream->state.chain_pes.p_first ) p_data->i_length = p_stream->state.chain_pes.p_first->i_length; /* Or next */ else if( p_next->i_length > 0 ) p_data->i_length = p_next->i_length; /* or worse */ else p_data->i_length = 1000; } } else if( p_input->p_fmt->i_codec != VLC_CODEC_SUBT ) { p_data->i_length = 1000; } } static block_t *Encap_J2K( block_t *p_data, const es_format_t *p_fmt ) { size_t i_offset = 0; uint32_t i_box = 0; while( p_data->i_buffer > 8 && p_data->i_buffer - i_offset > 8 ) { const uint32_t i_size = GetDWBE( &p_data->p_buffer[i_offset] ); i_box = VLC_FOURCC( p_data->p_buffer[i_offset + 4], p_data->p_buffer[i_offset + 5], p_data->p_buffer[i_offset + 6], p_data->p_buffer[i_offset + 7] ); if( p_data->i_buffer - i_offset < i_size || i_size < 8 ) { i_box = 0; break; } else if( i_box == J2K_BOX_JP2C ) { break; } i_offset += i_size; } if( i_box != J2K_BOX_JP2C ) { block_Release( p_data ); return NULL; } if( i_offset < 38 ) { block_t *p_realloc = block_Realloc( p_data, 38 - i_offset, p_data->i_buffer ); if( unlikely(!p_realloc) ) { block_Release( p_data ); return NULL; } p_data = p_realloc; } else { p_data->p_buffer += (i_offset - 38); p_data->i_buffer -= (i_offset - 38); } const int profile = j2k_get_profile( p_fmt->video.i_visible_width, p_fmt->video.i_visible_height, p_fmt->video.i_frame_rate, p_fmt->video.i_frame_rate_base, true ); memcpy( p_data->p_buffer, "elsmfrat", 8 ); SetWBE( &p_data->p_buffer[8], p_fmt->video.i_frame_rate_base ); SetWBE( &p_data->p_buffer[10], p_fmt->video.i_frame_rate ); memcpy( &p_data->p_buffer[12], "brat", 4 ); unsigned min = j2k_profiles_rates[profile].min * 1000000; unsigned max = j2k_profiles_rates[profile].max * 1000000; SetDWBE(&p_data->p_buffer[16], max ); SetDWBE(&p_data->p_buffer[20], min ); memcpy( &p_data->p_buffer[24], "tcod", 4 ); const unsigned s = p_data->i_pts / CLOCK_FREQ; const unsigned m = s / 60; const unsigned h = m / 60; const uint64_t l = p_fmt->video.i_frame_rate_base * CLOCK_FREQ / p_fmt->video.i_frame_rate; const unsigned f = (p_data->i_pts % CLOCK_FREQ) / l; p_data->p_buffer[28] = h; p_data->p_buffer[29] = m % 60; p_data->p_buffer[30] = s % 60; p_data->p_buffer[31] = f; memcpy( &p_data->p_buffer[32], "bcol", 4 ); p_data->p_buffer[36] = j2k_get_color_spec( p_fmt->video.primaries, p_fmt->video.transfer, p_fmt->video.space ); p_data->p_buffer[37] = 0; return p_data; } /* returns true if needs more data */ static bool MuxStreams(sout_mux_t *p_mux ) { sout_mux_sys_t *p_sys = p_mux->p_sys; sout_input_sys_t *p_pcr_stream = (sout_input_sys_t*)p_sys->p_pcr_input->p_sys; sout_buffer_chain_t chain_ts; vlc_tick_t i_shaping_delay = p_pcr_stream->state.b_key_frame ? p_pcr_stream->state.i_pes_length : p_sys->i_shaping_delay; bool b_ok = true; /* Accumulate enough data in the pcr stream (>i_shaping_delay) */ /* Accumulate enough data in all other stream ( >= length of pcr)*/ for (int i = -1; !b_ok || i < p_mux->i_nb_inputs; i++ ) { if (i == p_mux->i_nb_inputs) { /* get enough PES packet for all input */ b_ok = true; i = -1; } sout_input_t *p_input; if( i == -1 ) p_input = p_sys->p_pcr_input; else if( p_mux->pp_inputs[i] != p_sys->p_pcr_input ) p_input = p_mux->pp_inputs[i]; else continue; sout_input_sys_t *p_stream = (sout_input_sys_t*)p_input->p_sys; if( ( p_stream != p_pcr_stream || p_stream->state.i_pes_length >= i_shaping_delay ) && p_stream->state.i_pes_dts + p_stream->state.i_pes_length >= p_pcr_stream->state.i_pes_dts + p_pcr_stream->state.i_pes_length ) continue; /* Need more data */ if( block_FifoCount( p_input->p_fifo ) <= 1 ) { if( ( p_input->p_fmt->i_cat == AUDIO_ES ) || ( p_input->p_fmt->i_cat == VIDEO_ES ) ) { /* We need more data */ return true; } else if( block_FifoCount( p_input->p_fifo ) <= 0 ) { /* spu, only one packet is needed */ continue; } else if( p_input->p_fmt->i_cat == SPU_ES ) { /* Don't mux the SPU yet if it is too early */ block_t *p_spu = block_FifoShow( p_input->p_fifo ); int64_t i_spu_delay = p_spu->i_dts - p_pcr_stream->state.i_pes_dts; if( ( i_spu_delay > i_shaping_delay ) && ( i_spu_delay < 100 * CLOCK_FREQ ) ) continue; if ( ( i_spu_delay >= 100 * CLOCK_FREQ ) || ( i_spu_delay < CLOCK_FREQ / 100 ) ) { BufferChainClean( &p_stream->state.chain_pes ); p_stream->state.i_pes_dts = 0; p_stream->state.i_pes_used = 0; p_stream->state.i_pes_length = 0; continue; } } } b_ok = false; block_t *p_data; if( p_stream == p_pcr_stream || p_sys->b_data_alignment || ((p_input->p_fmt->i_codec != VLC_CODEC_MPGA ) && (p_input->p_fmt->i_codec != VLC_CODEC_MP3) ) ) { p_data = block_FifoGet( p_input->p_fifo ); if( p_data->i_dts <= VLC_TICK_INVALID ) p_data->i_dts = p_data->i_pts; else if ( p_data->i_pts <= VLC_TICK_INVALID ) p_data->i_pts = p_data->i_dts; if( p_input->p_fmt->i_codec == VLC_CODEC_MP4A ) p_data = Add_ADTS( p_data, p_input->p_fmt ); else if( p_input->p_fmt->i_codec == VLC_CODEC_OPUS ) p_data = Pack_Opus( p_data ); } else p_data = FixPES( p_mux, p_input->p_fifo ); SetBlockDuration( p_input, p_data ); if( p_data->i_dts == VLC_TICK_INVALID ) { msg_Err( p_mux, "non dated packet dropped" ); block_Release( p_data ); continue; } if ( p_sys->first_dts == 0 ) { /* Pick the really first DTS */ p_sys->first_dts = p_data->i_dts; for (int j = 0; j < p_mux->i_nb_inputs; j++ ) { if( p_mux->pp_inputs[j] != p_input && block_FifoCount( p_mux->pp_inputs[j]->p_fifo) > 0 ) { block_t *p_block = block_FifoShow( p_mux->pp_inputs[j]->p_fifo ); if( p_block->i_dts > VLC_TICK_INVALID && p_block->i_dts < p_sys->first_dts ) p_sys->first_dts = p_block->i_dts; } } } if( ( p_pcr_stream->state.i_pes_dts > 0 && p_data->i_dts - 10 * CLOCK_FREQ > p_pcr_stream->state.i_pes_dts + p_pcr_stream->state.i_pes_length ) || p_data->i_dts + i_shaping_delay < p_stream->state.i_pes_dts || ( p_stream->state.i_pes_dts > 0 && p_input->p_fmt->i_cat != SPU_ES && p_data->i_dts - 10 * CLOCK_FREQ > p_stream->state.i_pes_dts + p_stream->state.i_pes_length ) ) { msg_Warn( p_mux, "packet with too strange dts on pid %d (%4.4s)" "(dts=%"PRId64",old=%"PRId64",pcr=%"PRId64")", p_stream->ts.i_pid, (char *) &p_input->fmt.i_codec, p_data->i_dts, p_stream->state.i_pes_dts, p_pcr_stream->state.i_pes_dts ); block_Release( p_data ); BufferChainClean( &p_stream->state.chain_pes ); p_stream->state.i_pes_dts = 0; p_stream->state.i_pes_used = 0; p_stream->state.i_pes_length = 0; if( p_input->p_fmt->i_cat != SPU_ES ) { BufferChainClean( &p_pcr_stream->state.chain_pes ); p_pcr_stream->state.i_pes_dts = 0; p_pcr_stream->state.i_pes_used = 0; p_pcr_stream->state.i_pes_length = 0; } continue; } int i_header_size = 0; int i_max_pes_size = 0; int b_data_alignment = 0; if( p_input->p_fmt->i_cat == SPU_ES ) switch (p_input->p_fmt->i_codec) { case VLC_CODEC_SUBT: /* Prepend header */ p_data = block_Realloc( p_data, 2, p_data->i_buffer ); p_data->p_buffer[0] = ( (p_data->i_buffer - 2) >> 8) & 0xff; p_data->p_buffer[1] = ( (p_data->i_buffer - 2) ) & 0xff; /* remove trailing \0 if any */ if( p_data->i_buffer > 2 && !p_data->p_buffer[p_data->i_buffer-1] ) p_data->i_buffer--; /* Append a empty sub (sub text only) */ if( p_data->i_length > 0 && ( p_data->i_buffer != 1 || *p_data->p_buffer != ' ' ) ) { block_t *p_spu = block_Alloc( 3 ); p_spu->i_dts = p_data->i_dts + p_data->i_length; p_spu->i_pts = p_spu->i_dts; p_spu->i_length = 1000; p_spu->p_buffer[0] = 0; p_spu->p_buffer[1] = 1; p_spu->p_buffer[2] = ' '; EStoPES( &p_spu, p_input->p_fmt, p_stream->pes.i_stream_id, 1, 0, 0, 0, p_sys->first_dts - p_sys->i_dts_delay ); p_data->p_next = p_spu; } break; case VLC_CODEC_TELETEXT: /* EN 300 472 */ i_header_size = 0x24; b_data_alignment = 1; break; case VLC_CODEC_DVBS: /* EN 300 743 */ b_data_alignment = 1; break; } else if( p_input->fmt.i_cat == VIDEO_ES ) { if( p_input->fmt.i_codec == VLC_CODEC_JPEG2000 ) { if( p_data->i_flags & BLOCK_FLAG_INTERLACED_MASK ) msg_Warn( p_mux, "Unsupported interlaced J2K content. Expect broken result"); p_data = Encap_J2K( p_data, &p_input->fmt ); if( !p_data ) return false; } } else if( p_data->i_length < 0 || p_data->i_length > 2000000 ) { /* FIXME choose a better value, but anyway we * should never have to do that */ p_data->i_length = 1000; } p_stream->state.i_pes_length += p_data->i_length; if( p_stream->state.i_pes_dts == 0 ) { p_stream->state.i_pes_dts = p_data->i_dts; } /* Convert to pes */ if( p_stream->pes.i_stream_id == 0xa0 && p_data->i_pts <= 0 ) { /* XXX yes I know, it's awful, but it's needed, * so don't remove it ... */ p_data->i_pts = p_data->i_dts; } if( (p_input->p_fmt->i_codec == VLC_CODEC_DIRAC) || (p_input->p_fmt->i_codec == VLC_CODEC_H264) || (p_input->p_fmt->i_codec == VLC_CODEC_HEVC) || (p_input->p_fmt->i_codec == VLC_CODEC_MP2V) ) { b_data_alignment = 1; /* dirac and mpeg video pes packets should be unbounded in * length, specify a suitibly large max size */ i_max_pes_size = INT_MAX; } EStoPES ( &p_data, p_input->p_fmt, p_stream->pes.i_stream_id, 1, b_data_alignment, i_header_size, i_max_pes_size, p_sys->first_dts - p_sys->i_dts_delay ); BufferChainAppend( &p_stream->state.chain_pes, p_data ); if( p_sys->b_use_key_frames && p_stream == p_pcr_stream && (p_data->i_flags & BLOCK_FLAG_TYPE_I) && !(p_data->i_flags & BLOCK_FLAG_NO_KEYFRAME) && (p_stream->state.i_pes_length > 400000) ) { i_shaping_delay = p_stream->state.i_pes_length; p_stream->state.b_key_frame = 1; } } /* save */ const vlc_tick_t i_pcr_length = p_pcr_stream->state.i_pes_length; p_pcr_stream->state.b_key_frame = 0; /* msg_Dbg( p_mux, "starting muxing %lldms", i_pcr_length / 1000 ); */ /* 2: calculate non accurate total size of muxed ts */ int i_packet_count = 0; for (int i = 0; i < p_mux->i_nb_inputs; i++ ) { sout_input_sys_t *p_stream = (sout_input_sys_t*)p_mux->pp_inputs[i]->p_sys; /* False for pcr stream but it will be enough to do PCR algo */ for (block_t *p_pes = p_stream->state.chain_pes.p_first; p_pes != NULL; p_pes = p_pes->p_next ) { int i_size = p_pes->i_buffer; if( p_pes->i_dts + p_pes->i_length > p_pcr_stream->state.i_pes_dts + p_pcr_stream->state.i_pes_length ) { vlc_tick_t i_frag = p_pcr_stream->state.i_pes_dts + p_pcr_stream->state.i_pes_length - p_pes->i_dts; if( i_frag < 0 ) { /* Next stream */ break; } i_size = p_pes->i_buffer * i_frag / p_pes->i_length; } i_packet_count += ( i_size + 183 ) / 184; } } /* add overhead for PCR (not really exact) */ i_packet_count += (8 * i_pcr_length / p_sys->i_pcr_delay + 175) / 176; /* 3: mux PES into TS */ BufferChainInit( &chain_ts ); /* append PAT/PMT -> FIXME with big pcr delay it won't have enough pat/pmt */ bool pat_was_previous = true; //This is to prevent unnecessary double PAT/PMT insertions GetPAT( p_mux, &chain_ts ); GetPMT( p_mux, &chain_ts ); int i_packet_pos = 0; i_packet_count += chain_ts.i_depth; /* msg_Dbg( p_mux, "estimated pck=%d", i_packet_count ); */ const vlc_tick_t i_pcr_dts = p_pcr_stream->state.i_pes_dts; for (;;) { int i_stream = -1; vlc_tick_t i_dts = 0; sout_input_sys_t *p_stream; /* Select stream (lowest dts) */ for (int i = 0; i < p_mux->i_nb_inputs; i++ ) { p_stream = (sout_input_sys_t*)p_mux->pp_inputs[i]->p_sys; if( p_stream->state.i_pes_dts == 0 ) { continue; } if( i_stream == -1 || p_stream->state.i_pes_dts < i_dts ) { i_stream = i; i_dts = p_stream->state.i_pes_dts; } } if( i_stream == -1 || i_dts > i_pcr_dts + i_pcr_length ) { break; } p_stream = (sout_input_sys_t*)p_mux->pp_inputs[i_stream]->p_sys; sout_input_t *p_input = p_mux->pp_inputs[i_stream]; /* do we need to issue pcr */ bool b_pcr = false; if( p_stream == p_pcr_stream && i_pcr_dts + i_packet_pos * i_pcr_length / i_packet_count >= p_sys->i_pcr + p_sys->i_pcr_delay ) { b_pcr = true; p_sys->i_pcr = i_pcr_dts + i_packet_pos * i_pcr_length / i_packet_count; } /* Build the TS packet */ block_t *p_ts = TSNew( p_mux, p_stream, b_pcr ); if( p_sys->csa != NULL && (p_input->p_fmt->i_cat != AUDIO_ES || p_sys->b_crypt_audio) && (p_input->p_fmt->i_cat != VIDEO_ES || p_sys->b_crypt_video) ) { p_ts->i_flags |= BLOCK_FLAG_SCRAMBLED; } i_packet_pos++; /* Write PAT/PMT before every keyframe if use-key-frames is enabled, * this helps to do segmenting with livehttp-output so it can cut segment * and start new one with pat,pmt,keyframe*/ if( ( p_sys->b_use_key_frames ) && ( p_input->p_fmt->i_cat == VIDEO_ES ) && ( p_ts->i_flags & BLOCK_FLAG_TYPE_I ) ) { if( likely( !pat_was_previous ) ) { int startcount = chain_ts.i_depth; GetPAT( p_mux, &chain_ts ); GetPMT( p_mux, &chain_ts ); SetHeader( &chain_ts, startcount ); i_packet_count += (chain_ts.i_depth - startcount ); } else { SetHeader( &chain_ts, 0); //We just inserted pat/pmt,so just flag it instead of adding new one } } pat_was_previous = false; /* */ BufferChainAppend( &chain_ts, p_ts ); } /* 4: date and send */ TSSchedule( p_mux, &chain_ts, i_pcr_length, i_pcr_dts ); return false; } /***************************************************************************** * Mux: Call each time there is new data for at least one stream ***************************************************************************** * *****************************************************************************/ static int Mux( sout_mux_t *p_mux ) { sout_mux_sys_t *p_sys = p_mux->p_sys; if( p_sys->p_pcr_input == NULL ) { for (int i = 0; i < p_mux->i_nb_inputs; i++ ) { block_FifoEmpty( p_mux->pp_inputs[i]->p_fifo ); } msg_Dbg( p_mux, "waiting for PCR streams" ); return VLC_SUCCESS; } while (!MuxStreams(p_mux)) ; return VLC_SUCCESS; } #define STD_PES_PAYLOAD 170 static block_t *FixPES( sout_mux_t *p_mux, block_fifo_t *p_fifo ) { VLC_UNUSED(p_mux); block_t *p_data; size_t i_size; p_data = block_FifoShow( p_fifo ); i_size = p_data->i_buffer; if( i_size == STD_PES_PAYLOAD ) { return block_FifoGet( p_fifo ); } else if( i_size > STD_PES_PAYLOAD ) { block_t *p_new = block_Alloc( STD_PES_PAYLOAD ); memcpy( p_new->p_buffer, p_data->p_buffer, STD_PES_PAYLOAD ); p_new->i_pts = p_data->i_pts; p_new->i_dts = p_data->i_dts; p_new->i_length = p_data->i_length * STD_PES_PAYLOAD / p_data->i_buffer; p_data->i_buffer -= STD_PES_PAYLOAD; p_data->p_buffer += STD_PES_PAYLOAD; p_data->i_pts += p_new->i_length; p_data->i_dts += p_new->i_length; p_data->i_length -= p_new->i_length; p_data->i_flags |= BLOCK_FLAG_NO_KEYFRAME; return p_new; } else { block_t *p_next; int i_copy; p_data = block_FifoGet( p_fifo ); p_data = block_Realloc( p_data, 0, STD_PES_PAYLOAD ); p_next = block_FifoShow( p_fifo ); if ( p_data->i_flags & BLOCK_FLAG_NO_KEYFRAME ) { p_data->i_flags &= ~BLOCK_FLAG_NO_KEYFRAME; p_data->i_pts = p_next->i_pts; p_data->i_dts = p_next->i_dts; } i_copy = __MIN( STD_PES_PAYLOAD - i_size, p_next->i_buffer ); memcpy( &p_data->p_buffer[i_size], p_next->p_buffer, i_copy ); if( p_next->i_pts ) p_next->i_pts += p_next->i_length * i_copy / p_next->i_buffer; if( p_next->i_dts ) p_next->i_dts += p_next->i_length * i_copy / p_next->i_buffer; p_next->i_length -= p_next->i_length * i_copy / p_next->i_buffer; p_next->i_buffer -= i_copy; p_next->p_buffer += i_copy; p_next->i_flags |= BLOCK_FLAG_NO_KEYFRAME; if( !p_next->i_buffer ) { p_next = block_FifoGet( p_fifo ); block_Release( p_next ); } return p_data; } } static block_t *Add_ADTS( block_t *p_data, const es_format_t *p_fmt ) { #define ADTS_HEADER_SIZE 7 /* CRC needs 2 more bytes */ const uint8_t *p_extra = p_fmt->p_extra; if( !p_data || p_fmt->i_extra < 2 || !p_extra ) return p_data; /* no data to construct the headers */ size_t frame_length = p_data->i_buffer + ADTS_HEADER_SIZE; int i_index = ( (p_extra[0] << 1) | (p_extra[1] >> 7) ) & 0x0f; int i_profile = (p_extra[0] >> 3) - 1; /* i_profile < 4 */ if( i_index == 0x0f && p_fmt->i_extra < 5 ) return p_data; /* not enough data */ int i_channels = (p_extra[i_index == 0x0f ? 4 : 1] >> 3) & 0x0f; block_t *p_new_block = block_Realloc( p_data, ADTS_HEADER_SIZE, p_data->i_buffer ); uint8_t *p_buffer = p_new_block->p_buffer; /* fixed header */ p_buffer[0] = 0xff; p_buffer[1] = 0xf1; /* 0xf0 | 0x00 | 0x00 | 0x01 */ p_buffer[2] = (i_profile << 6) | ((i_index & 0x0f) << 2) | ((i_channels >> 2) & 0x01) ; p_buffer[3] = (i_channels << 6) | ((frame_length >> 11) & 0x03); /* variable header (starts at last 2 bits of 4th byte) */ int i_fullness = 0x7ff; /* 0x7ff means VBR */ /* XXX: We should check if it's CBR or VBR, but no known implementation * do that, and it's a pain to calculate this field */ p_buffer[4] = frame_length >> 3; p_buffer[5] = ((frame_length & 0x07) << 5) | ((i_fullness >> 6) & 0x1f); p_buffer[6] = ((i_fullness & 0x3f) << 2) /* | 0xfc */; return p_new_block; } static void TSSchedule( sout_mux_t *p_mux, sout_buffer_chain_t *p_chain_ts, vlc_tick_t i_pcr_length, vlc_tick_t i_pcr_dts ) { sout_mux_sys_t *p_sys = p_mux->p_sys; sout_buffer_chain_t new_chain; int i_packet_count = p_chain_ts->i_depth; BufferChainInit( &new_chain ); if ( i_pcr_length <= 0 ) { i_pcr_length = i_packet_count; } for (int i = 0; i < i_packet_count; i++ ) { block_t *p_ts = BufferChainGet( p_chain_ts ); vlc_tick_t i_new_dts = i_pcr_dts + i_pcr_length * i / i_packet_count; BufferChainAppend( &new_chain, p_ts ); if (!p_ts->i_dts || p_ts->i_dts + p_sys->i_dts_delay * 2/3 >= i_new_dts) continue; vlc_tick_t i_max_diff = i_new_dts - p_ts->i_dts; vlc_tick_t i_cut_dts = p_ts->i_dts; p_ts = BufferChainPeek( p_chain_ts ); i++; i_new_dts = i_pcr_dts + i_pcr_length * i / i_packet_count; while ( p_ts != NULL && i_new_dts - p_ts->i_dts >= i_max_diff ) { p_ts = BufferChainGet( p_chain_ts ); i_max_diff = i_new_dts - p_ts->i_dts; i_cut_dts = p_ts->i_dts; BufferChainAppend( &new_chain, p_ts ); p_ts = BufferChainPeek( p_chain_ts ); i++; i_new_dts = i_pcr_dts + i_pcr_length * i / i_packet_count; } msg_Dbg( p_mux, "adjusting rate at %"PRId64"/%"PRId64" (%d/%d)", i_cut_dts - i_pcr_dts, i_pcr_length, new_chain.i_depth, p_chain_ts->i_depth ); if ( new_chain.i_depth ) TSDate( p_mux, &new_chain, i_cut_dts - i_pcr_dts, i_pcr_dts ); if ( p_chain_ts->i_depth ) TSSchedule( p_mux, p_chain_ts, i_pcr_dts + i_pcr_length - i_cut_dts, i_cut_dts ); return; } if ( new_chain.i_depth ) TSDate( p_mux, &new_chain, i_pcr_length, i_pcr_dts ); } static void TSDate( sout_mux_t *p_mux, sout_buffer_chain_t *p_chain_ts, vlc_tick_t i_pcr_length, vlc_tick_t i_pcr_dts ) { sout_mux_sys_t *p_sys = p_mux->p_sys; int i_packet_count = p_chain_ts->i_depth; if ( i_pcr_length / 1000 > 0 ) { int i_bitrate = ((uint64_t)i_packet_count * 188 * 8000) / (uint64_t)(i_pcr_length / 1000); if ( p_sys->i_bitrate_max && p_sys->i_bitrate_max < i_bitrate ) { msg_Warn( p_mux, "max bitrate exceeded at %"PRId64 " (%d bi/s for %d pkt in %"PRId64" us)", i_pcr_dts + p_sys->i_shaping_delay * 3 / 2 - mdate(), i_bitrate, i_packet_count, i_pcr_length); } } else { /* This shouldn't happen, but happens in some rare heavy load * and packet losses conditions. */ i_pcr_length = i_packet_count; } /* msg_Dbg( p_mux, "real pck=%d", i_packet_count ); */ for (int i = 0; i < i_packet_count; i++ ) { block_t *p_ts = BufferChainGet( p_chain_ts ); vlc_tick_t i_new_dts = i_pcr_dts + i_pcr_length * i / i_packet_count; p_ts->i_dts = i_new_dts; p_ts->i_length = i_pcr_length / i_packet_count; if( p_ts->i_flags & BLOCK_FLAG_CLOCK ) { /* msg_Dbg( p_mux, "pcr=%lld ms", p_ts->i_dts / 1000 ); */ TSSetPCR( p_ts, p_ts->i_dts - p_sys->first_dts ); } if( p_ts->i_flags & BLOCK_FLAG_SCRAMBLED ) { vlc_mutex_lock( &p_sys->csa_lock ); csa_Encrypt( p_sys->csa, p_ts->p_buffer, p_sys->i_csa_pkt_size ); vlc_mutex_unlock( &p_sys->csa_lock ); } /* latency */ p_ts->i_dts += p_sys->i_shaping_delay * 3 / 2; sout_AccessOutWrite( p_mux->p_access, p_ts ); } } static block_t *TSNew( sout_mux_t *p_mux, sout_input_sys_t *p_stream, bool b_pcr ) { VLC_UNUSED(p_mux); block_t *p_pes = p_stream->state.chain_pes.p_first; bool b_new_pes = false; bool b_adaptation_field = false; int i_payload_max = 184 - ( b_pcr ? 8 : 0 ); if( p_stream->state.i_pes_used <= 0 ) { b_new_pes = true; } int i_payload = __MIN( (int)p_pes->i_buffer - p_stream->state.i_pes_used, i_payload_max ); if( b_pcr || i_payload < i_payload_max ) { b_adaptation_field = true; } block_t *p_ts = block_Alloc( 188 ); if (b_new_pes && !(p_pes->i_flags & BLOCK_FLAG_NO_KEYFRAME) && p_pes->i_flags & BLOCK_FLAG_TYPE_I) { p_ts->i_flags |= BLOCK_FLAG_TYPE_I; } p_ts->i_dts = p_pes->i_dts; p_ts->p_buffer[0] = 0x47; p_ts->p_buffer[1] = ( b_new_pes ? 0x40 : 0x00 ) | ( ( p_stream->ts.i_pid >> 8 )&0x1f ); p_ts->p_buffer[2] = p_stream->ts.i_pid & 0xff; p_ts->p_buffer[3] = ( b_adaptation_field ? 0x30 : 0x10 ) | p_stream->ts.i_continuity_counter; p_stream->ts.i_continuity_counter = (p_stream->ts.i_continuity_counter+1)%16; p_stream->ts.b_discontinuity = p_pes->i_flags & BLOCK_FLAG_DISCONTINUITY; if( b_adaptation_field ) { int i_stuffing = i_payload_max - i_payload; if( b_pcr ) { p_ts->i_flags |= BLOCK_FLAG_CLOCK; p_ts->p_buffer[4] = 7 + i_stuffing; p_ts->p_buffer[5] = 1 << 4; /* PCR_flag */ if( p_stream->ts.b_discontinuity ) { p_ts->p_buffer[5] |= 0x80; /* flag TS dicontinuity */ p_stream->ts.b_discontinuity = false; } memset(&p_ts->p_buffer[12], 0xff, i_stuffing); } else { p_ts->p_buffer[4] = --i_stuffing; if( i_stuffing-- ) { p_ts->p_buffer[5] = 0; memset(&p_ts->p_buffer[6], 0xff, i_stuffing); } } } /* copy payload */ memcpy( &p_ts->p_buffer[188 - i_payload], &p_pes->p_buffer[p_stream->state.i_pes_used], i_payload ); p_stream->state.i_pes_used += i_payload; p_stream->state.i_pes_dts = p_pes->i_dts + p_pes->i_length * p_stream->state.i_pes_used / p_pes->i_buffer; p_stream->state.i_pes_length -= p_pes->i_length * i_payload / p_pes->i_buffer; if( p_stream->state.i_pes_used >= (int)p_pes->i_buffer ) { block_Release(BufferChainGet( &p_stream->state.chain_pes )); p_pes = p_stream->state.chain_pes.p_first; p_stream->state.i_pes_length = 0; if( p_pes ) { p_stream->state.i_pes_dts = p_pes->i_dts; while( p_pes ) { p_stream->state.i_pes_length += p_pes->i_length; p_pes = p_pes->p_next; } } else { p_stream->state.i_pes_dts = 0; } p_stream->state.i_pes_used = 0; } return p_ts; } static void TSSetPCR( block_t *p_ts, vlc_tick_t i_dts ) { vlc_tick_t i_pcr = 9 * i_dts / 100; p_ts->p_buffer[6] = ( i_pcr >> 25 )&0xff; p_ts->p_buffer[7] = ( i_pcr >> 17 )&0xff; p_ts->p_buffer[8] = ( i_pcr >> 9 )&0xff; p_ts->p_buffer[9] = ( i_pcr >> 1 )&0xff; p_ts->p_buffer[10] = ( i_pcr << 7 )&0x80; p_ts->p_buffer[10] |= 0x7e; p_ts->p_buffer[11] = 0; /* we don't set PCR extension */ } void GetPAT( sout_mux_t *p_mux, sout_buffer_chain_t *c ) { sout_mux_sys_t *p_sys = p_mux->p_sys; BuildPAT( p_sys->p_dvbpsi, c, (PEStoTSCallback)BufferChainAppend, p_sys->i_tsid, p_sys->i_pat_version_number, &p_sys->pat, p_sys->i_num_pmt, p_sys->pmt, p_sys->i_pmt_program_number ); } static void GetPMT( sout_mux_t *p_mux, sout_buffer_chain_t *c ) { sout_mux_sys_t *p_sys = p_mux->p_sys; pes_mapped_stream_t mapped[p_mux->i_nb_inputs]; for (int i_stream = 0; i_stream < p_mux->i_nb_inputs; i_stream++ ) { sout_input_t *p_input = p_mux->pp_inputs[i_stream]; sout_input_sys_t *p_stream = (sout_input_sys_t*)p_input->p_sys; int i_pidinput = p_input->p_fmt->i_id; pmt_map_t *p_usepid = bsearch( &i_pidinput, p_sys->pmtmap, p_sys->i_pmtslots, sizeof(pmt_map_t), intcompare ); /* If there's an error somewhere, dump it to the first pmt */ mapped[i_stream].i_mapped_prog = p_usepid ? p_usepid->i_prog : 0; mapped[i_stream].fmt = p_input->p_fmt; mapped[i_stream].pes = &p_stream->pes; mapped[i_stream].ts = &p_stream->ts; } BuildPMT( p_sys->p_dvbpsi, VLC_OBJECT(p_mux), p_sys->standard, c, (PEStoTSCallback)BufferChainAppend, p_sys->i_tsid, p_sys->i_pmt_version_number, ((sout_input_sys_t *)p_sys->p_pcr_input->p_sys)->ts.i_pid, &p_sys->sdt, p_sys->i_num_pmt, p_sys->pmt, p_sys->i_pmt_program_number, p_mux->i_nb_inputs, mapped ); }