/* * ts_reader.c * * Copyright (C) Thomas Oestreich - December 2002 * * based on extract_mpeg2.c * Copyright (C) 2000-2002 Michel Lespinasse * Copyright (C) 1999-2000 Aaron Holtzman * * This file is part of transcode, a video stream processing tool * * transcode is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * transcode 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNU Make; see the file COPYING. If not, write to * the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include "transcode.h" #include "tcinfo.h" #include #include "ioaux.h" #ifdef HAVE_IO_H #include #endif #define BUFFER_SIZE 188 #define TS_PACK BUFFER_SIZE static uint8_t buffer[BUFFER_SIZE]; static int demux_track = 0xe0; static int demux_pid = 0; //static int demux_pva = 0; static int fd_in; #define TRANS_ERROR 0x80 #define PAY_START 0x40 #define TRANS_PRIO 0x20 #define PID_MASK_HI 0x1F //flags #define TRANS_SCRMBL1 0x80 #define TRANS_SCRMBL2 0x40 #define ADAPT_FIELD 0x20 #define PAYLOAD 0x10 #define COUNT_MASK 0x0F // adaptation flags #define DISCON_IND 0x80 #define RAND_ACC_IND 0x40 #define ES_PRI_IND 0x20 #define PCR_FLAG 0x10 #define OPCR_FLAG 0x08 #define SPLICE_FLAG 0x04 #define TRANS_PRIV 0x02 #define ADAP_EXT_FLAG 0x01 // adaptation extension flags #define LTW_FLAG 0x80 #define PIECE_RATE 0x40 #define SEAM_SPLICE 0x20 typedef struct ts_packet_{ uint8_t pid[2]; uint8_t flags; uint8_t count; uint8_t data[184]; uint8_t adapt_length; uint8_t adapt_flags; uint8_t pcr[6]; uint8_t opcr[6]; uint8_t splice_count; uint8_t priv_dat_len; uint8_t *priv_dat; uint8_t adapt_ext_len; uint8_t adapt_eflags; uint8_t ltw[2]; uint8_t piece_rate[3]; uint8_t dts[5]; int rest; uint8_t stuffing; } ts_packet; static void init_ts(ts_packet *p) { p->pid[0] = 0; p->pid[1] = 0; p->flags = 0; p->count = 0; p->adapt_length = 0; p->adapt_flags = 0; p->splice_count = 0; p->priv_dat_len = 0; p->priv_dat = NULL; p->adapt_ext_len = 0; p->adapt_eflags = 0; p->rest = 0; p->stuffing = 0; } static uint16_t get_pid(uint8_t *pid) { uint16_t pp = 0; pp = (pid[0] & PID_MASK_HI)<<8; pp |= pid[1]; return pp; } // tibit void probe_ts(info_t *ipipe) { int i; int found=0, doit=1; uint8_t sync = 0; ts_packet p; ssize_t size=0; #define MAX_PID 20 int pid[MAX_PID]; int npid=0; // look for a syncword while (!found && doit) { i = tc_pread(ipipe->fd_in, (uint8_t *)&sync, 1); if (sync == 0x47) found = 1; if (i == 0) doit = 0; } for (i=0 ; ifactor*1024*1024) { if((i=tc_pread(ipipe->fd_in, buffer, TS_PACK-1)) != TS_PACK-1) { tc_log_info(__FILE__, "end of stream"); return; } size += i; init_ts (&p); ac_memcpy (&p, buffer, 3); found = 0; for (i=0;i= MAX_PID) { tc_log_warn(__FILE__, "Too many pids"); return; } } found = 0; doit = 1; // read away syncword while (!found && doit) { i = tc_pread(ipipe->fd_in, (uint8_t *)&sync, 1); if (sync == 0x47) found = 1; if (i == 0) doit = 0; size += i; } if(!doit) { tc_log_info(__FILE__, "end of stream"); return; } } if (!npid) tc_log_info(__FILE__, "No pids found"); } #define DEMUX_PAYLOAD_START 1 static int demux (uint8_t * buf, uint8_t * end, int flags) { static int mpeg1_skip_table[16] = { 0, 0, 4, 9, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; /* * the demuxer keeps some state between calls: * if "state" = DEMUX_HEADER, then "head_buf" contains the first * "bytes" bytes from some header. * if "state" == DEMUX_DATA, then we need to copy "bytes" bytes * of ES data before the next header. * if "state" == DEMUX_SKIP, then we need to skip "bytes" bytes * of data before the next header. * * NEEDBYTES makes sure we have the requested number of bytes for a * header. If we dont, it copies what we have into head_buf and returns, * so that when we come back with more data we finish decoding this header. * * DONEBYTES updates "buf" to point after the header we just parsed. */ #define DEMUX_HEADER 0 #define DEMUX_DATA 1 #define DEMUX_SKIP 2 static int state = DEMUX_SKIP; static int state_bytes = 0; static uint8_t head_buf[264]; uint8_t * header; int bytes; int len; #define NEEDBYTES(x) \ do { \ int missing; \ \ missing = (x) - bytes; \ if (missing > 0) { \ if (header == head_buf) { \ if (missing <= end - buf) { \ ac_memcpy (header + bytes, buf, missing); \ buf += missing; \ bytes = (x); \ } else { \ ac_memcpy (header + bytes, buf, end - buf); \ state_bytes = bytes + end - buf; \ return 0; \ } \ } else { \ ac_memcpy (head_buf, header, bytes); \ state = DEMUX_HEADER; \ state_bytes = bytes; \ return 0; \ } \ } \ } while (0) #define DONEBYTES(x) \ do { \ if (header != head_buf) \ buf = header + (x); \ } while (0) if (flags & DEMUX_PAYLOAD_START) goto payload_start; switch (state) { case DEMUX_HEADER: if (state_bytes > 0) { header = head_buf; bytes = state_bytes; goto continue_header; } break; case DEMUX_DATA: if (demux_pid || (state_bytes > end - buf)) { fwrite (buf, end - buf, 1, stdout); state_bytes -= end - buf; return 0; } fwrite (buf, state_bytes, 1, stdout); buf += state_bytes; break; case DEMUX_SKIP: if (demux_pid || (state_bytes > end - buf)) { state_bytes -= end - buf; return 0; } buf += state_bytes; break; } while (1) { if (demux_pid) { state = DEMUX_SKIP; return 0; } payload_start: header = buf; bytes = end - buf; continue_header: NEEDBYTES (4); if (header[0] || header[1] || (header[2] != 1)) { if (demux_pid) { state = DEMUX_SKIP; return 0; } else if (header != head_buf) { buf++; goto payload_start; } else { header[0] = header[1]; header[1] = header[2]; header[2] = header[3]; bytes = 3; goto continue_header; } } if (demux_pid) { if ((header[3] >= 0xe0) && (header[3] <= 0xef)) goto pes; tc_log_error(__FILE__, "bad stream id %x", header[3]); exit (1); } switch (header[3]) { case 0xb9: /* program end code */ /* DONEBYTES (4); */ /* break; */ return 1; case 0xba: /* pack header */ NEEDBYTES (12); if ((header[4] & 0xc0) == 0x40) { /* mpeg2 */ NEEDBYTES (14); len = 14 + (header[13] & 7); NEEDBYTES (len); DONEBYTES (len); /* header points to the mpeg2 pack header */ } else if ((header[4] & 0xf0) == 0x20) { /* mpeg1 */ DONEBYTES (12); /* header points to the mpeg1 pack header */ } else { tc_log_error(__FILE__, "weird pack header"); exit (1); } break; default: if (header[3] == demux_track) { pes: NEEDBYTES (7); if ((header[6] & 0xc0) == 0x80) { /* mpeg2 */ NEEDBYTES (9); len = 9 + header[8]; NEEDBYTES (len); /* header points to the mpeg2 pes header */ } else { /* mpeg1 */ len = 7; while ((header-1)[len] == 0xff) { len++; NEEDBYTES (len); if (len > 23) { tc_log_warn(__FILE__, "too much stuffing"); break; } } if (((header-1)[len] & 0xc0) == 0x40) { len += 2; NEEDBYTES (len); } len += mpeg1_skip_table[(header - 1)[len] >> 4]; NEEDBYTES (len); /* header points to the mpeg1 pes header */ } DONEBYTES (len); bytes = 6 + (header[4] << 8) + header[5] - len; if (demux_pid || (bytes > end - buf)) { fwrite (buf, end - buf, 1, stdout); state = DEMUX_DATA; state_bytes = bytes - (end - buf); return 0; } else if (bytes <= 0) continue; fwrite (buf, bytes, 1, stdout); buf += bytes; } else if (header[3] < 0xb9) { tc_log_info(__FILE__, "looks like a video stream, not system stream"); DONEBYTES (4); } else { NEEDBYTES (6); DONEBYTES (6); bytes = (header[4] << 8) + header[5]; if (bytes > end - buf) { state = DEMUX_SKIP; state_bytes = bytes - (end - buf); return 0; } buf += bytes; } } } } #if 0 static void ps_loop (void) { uint8_t * end; do { end = buffer + fread (buffer, 1, BUFFER_SIZE, in_file); if (demux (buffer, end, 0)) break; /* hit program_end_code */ } while (end == buffer + BUFFER_SIZE); } static int pva_demux (uint8_t * buf, uint8_t * end) { static int state = DEMUX_SKIP; static int state_bytes = 0; static uint8_t head_buf[12]; uint8_t * header; int bytes; int len; switch (state) { case DEMUX_HEADER: if (state_bytes > 0) { header = head_buf; bytes = state_bytes; goto continue_header; } break; case DEMUX_DATA: if (state_bytes > end - buf) { fwrite (buf, end - buf, 1, stdout); state_bytes -= end - buf; return 0; } fwrite (buf, state_bytes, 1, stdout); buf += state_bytes; break; case DEMUX_SKIP: if (state_bytes > end - buf) { state_bytes -= end - buf; return 0; } buf += state_bytes; break; } while (1) { payload_start: header = buf; bytes = end - buf; continue_header: NEEDBYTES (2); if (header[0] != 0x41 || header[1] != 0x56) { if (header != head_buf) { buf++; goto payload_start; } else { header[0] = header[1]; bytes = 1; goto continue_header; } } NEEDBYTES (8); if (header[2] != 1) { DONEBYTES (8); bytes = (header[6] << 8) + header[7]; if (bytes > end - buf) { state = DEMUX_SKIP; state_bytes = bytes - (end - buf); return 0; } buf += bytes; } else { len = 8; if (header[5] & 0x10) { len = 12; NEEDBYTES (len); } DONEBYTES (len); bytes = (header[6] << 8) + header[7] + 8 - len; if (bytes > end - buf) { fwrite (buf, end - buf, 1, stdout); state = DEMUX_DATA; state_bytes = bytes - (end - buf); return 0; } else if (bytes > 0) { fwrite (buf, bytes, 1, stdout); buf += bytes; } } } } #endif #if 0 static void pva_loop (void) { uint8_t * end; do { end = buffer + fread (buffer, 1, BUFFER_SIZE, in_file); pva_demux (buffer, end); } while (end == buffer + BUFFER_SIZE); } #endif static void ts_loop (void) { #define PACKETS (BUFFER_SIZE / 188) uint8_t * buf; uint8_t * data; uint8_t * end; int packets; int i; int pid; do { if((i=tc_pread(fd_in, buffer, TS_PACK)) != TS_PACK) { tc_log_info(__FILE__, "end of stream"); return; } packets=1; for (i = 0; i < packets; i++) { buf = buffer + i * 188; end = buf + 188; if (buf[0] != 0x47) { tc_log_error(__FILE__, "bad sync byte"); exit (1); } pid = ((buf[1] << 8) + buf[2]) & 0x1fff; if (pid != demux_pid) { //tc_log_msg(__FILE__, "0x%x", pid); continue; } data = buf + 4; if (buf[3] & 0x20) { /* buf contains an adaptation field */ data = buf + 5 + buf[4]; if (data > end) continue; } if (buf[3] & 0x10) demux (data, end, (buf[1] & 0x40) ? DEMUX_PAYLOAD_START : 0); } } while (packets == PACKETS); } int ts_read(int _fd_in, int fd_out, int _demux_pid) { #ifdef HAVE_IO_H setmode (fileno (stdout), O_BINARY); #endif demux_pid = _demux_pid; fd_in = _fd_in; ts_loop(); return 0; }