/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2008 Dave Chapman * Copyright (C) 2009 Mohamed Tarek * * This program 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 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include #include "rm.h" #ifdef ROCKBOX #include "codeclib.h" #endif void advance_buffer(uint8_t **buf, int val) { *buf += val; } static uint8_t get_uint8(uint8_t *buf) { return (uint8_t)buf[0]; } static uint16_t get_uint16be(uint8_t *buf) { return (uint16_t)((buf[0] << 8)|buf[1]); } static uint32_t get_uint32be(uint8_t *buf) { return (uint32_t)((buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]); } #ifdef TEST #include #include #include #include int filesize(int fd) { struct stat buf; if (fstat(fd,&buf) == -1) { return -1; } else { return (int)buf.st_size; } } static int read_uint8(int fd, uint8_t* buf) { unsigned char tmp[1]; int res; res=read(fd, tmp, 1); *buf = tmp[0]; return res; } static int read_uint16be(int fd, uint16_t* buf) { unsigned char tmp[2]; int res; res=read(fd, tmp, 2); *buf = (tmp[0] << 8) | tmp[1]; return res; } static int read_uint32be(int fd, uint32_t* buf) { unsigned char tmp[4]; int res; res=read(fd, tmp, 4); *buf = (tmp[0] << 24) | (tmp[1] << 16) | (tmp[2] << 8) | tmp[3]; return res; } static void print_cook_extradata(RMContext *rmctx) { DEBUGF(" cook_version = 0x%08x\n", get_uint32be(rmctx->codec_extradata)); DEBUGF(" samples_per_frame_per_channel = %d\n", get_uint16be(&rmctx->codec_extradata[4])); DEBUGF(" number_of_subbands_in_freq_domain = %d\n", get_uint16be(&rmctx->codec_extradata[6])); if(rmctx->extradata_size == 16) { DEBUGF(" joint_stereo_subband_start = %d\n",get_uint16be(&rmctx->codec_extradata[12])); DEBUGF(" joint_stereo_vlc_bits = %d\n", get_uint16be(&rmctx->codec_extradata[14])); } } struct real_object_t { uint32_t fourcc; uint32_t size; uint16_t version; }; #define FOURCC(a,b,c,d) (((a)<<24) | ((b) << 16) | ((c) << 8) | (d)) static int real_read_object_header(int fd, struct real_object_t* obj) { int n; if ((n = read_uint32be(fd, &obj->fourcc)) <= 0) return n; if ((n = read_uint32be(fd, &obj->size)) <= 0) return n; if ((n = read_uint16be(fd, &obj->version)) <= 0) return n; return 1; } static char* fourcc2str(uint32_t f) { static char res[5]; res[0] = (f & 0xff000000) >> 24; res[1] = (f & 0xff0000) >> 16; res[2] = (f & 0xff00) >> 8; res[3] = (f & 0xff); res[4] = 0; return res; } static int read_str(int fd, char* buf) { uint8_t len; int res; res = read(fd, &len, 1); res = read(fd, buf, len); buf[len]=0; return len+1; } static int real_read_audio_stream_info(int fd, RMContext *rmctx) { int skipped = 0; uint32_t version; struct real_object_t obj; memset(&obj,0,sizeof(obj)); uint32_t header_size; uint16_t flavor; uint32_t coded_framesize; uint32_t unknown1; uint32_t unknown2; uint32_t unknown3; uint16_t unknown4; uint16_t unknown5; uint16_t unknown6; uint16_t unknown7; uint32_t unknown8; uint8_t interleaver_id_length; uint32_t interleaver_id; uint8_t fourcc_length; uint32_t fourcc = 0; uint8_t unknown9; uint16_t unknown10; uint8_t unknown11; read_uint32be(fd, &version); skipped += 4; DEBUGF(" version=0x%04x\n",((version >> 16) & 0xff)); if (((version >> 16) & 0xff) == 3) { /* Very old version */ } else { real_read_object_header(fd, &obj); skipped += 10; read_uint32be(fd, &header_size); skipped += 4; /* obj.size will be filled with an unknown value, replaced with header_size */ DEBUGF(" Object: %s, size: %d bytes, version: 0x%04x\n",fourcc2str(obj.fourcc),header_size,obj.version); read_uint16be(fd, &flavor); read_uint32be(fd, &coded_framesize); read_uint32be(fd, &unknown1); read_uint32be(fd, &unknown2); read_uint32be(fd, &unknown3); read_uint16be(fd, &rmctx->sub_packet_h); read_uint16be(fd, &rmctx->block_align); read_uint16be(fd, &rmctx->sub_packet_size); read_uint16be(fd, &unknown4); skipped += 26; if (((version >> 16) & 0xff) == 5) { read_uint16be(fd, &unknown5); read_uint16be(fd, &unknown6); read_uint16be(fd, &unknown7); skipped += 6; } read_uint16be(fd, &rmctx->sample_rate); read_uint32be(fd, &unknown8); read_uint16be(fd, &rmctx->nb_channels); skipped += 8; if (((version >> 16) & 0xff) == 4) { read_uint8(fd, &interleaver_id_length); read_uint32be(fd, &interleaver_id); read_uint8(fd, &fourcc_length); read_uint32be(fd, &fourcc); skipped += 10; } if (((version >> 16) & 0xff) == 5) { read_uint32be(fd, &interleaver_id); read_uint32be(fd, &fourcc); skipped += 8; } read_uint8(fd,&unknown9); read_uint16be(fd,&unknown10); skipped += 3; if (((version >> 16) & 0xff) == 5) { read_uint8(fd, &unknown11); skipped += 1; } read_uint32be(fd, &rmctx->extradata_size); skipped += 4; read(fd, rmctx->codec_extradata, rmctx->extradata_size); skipped += rmctx->extradata_size; DEBUGF(" flavor = %d\n",flavor); DEBUGF(" coded_frame_size = %d\n",coded_framesize); DEBUGF(" sub_packet_h = %d\n",rmctx->sub_packet_h); DEBUGF(" frame_size = %d\n",rmctx->block_align); DEBUGF(" sub_packet_size = %d\n",rmctx->sub_packet_size); DEBUGF(" sample_rate= %d\n",rmctx->sample_rate); DEBUGF(" channels= %d\n",rmctx->nb_channels); DEBUGF(" fourcc = %s\n",fourcc2str(fourcc)); DEBUGF(" codec_extra_data_length = %d\n",rmctx->extradata_size); DEBUGF(" codec_extradata :\n"); print_cook_extradata(rmctx); } return skipped; } int real_parse_header(int fd, RMContext *rmctx) { struct real_object_t obj; memset(&obj,0,sizeof(obj)); int res; int skipped; off_t curpos; uint32_t unknown1; uint32_t unknown2; uint32_t max_bitrate; uint32_t avg_bitrate = 0; uint32_t max_packet_size; uint32_t avg_packet_size; uint32_t packet_count; uint32_t duration; uint32_t preroll; uint32_t index_offset; uint16_t num_streams; uint16_t flags = 0; uint16_t stream_id; uint32_t start_time; char desc[256]; char mimetype[256]; uint32_t codec_data_size; uint32_t v; char title[256]; char author[256]; char copyright[256]; char comment[256]; uint32_t next_data_off; uint8_t header_end; curpos = lseek(fd, 0, SEEK_SET); res = real_read_object_header(fd, &obj); if (obj.fourcc == FOURCC('.','r','a',0xfd)) { /* Very old .ra format - not yet supported */ return -1; } else if (obj.fourcc != FOURCC('.','R','M','F')) { return -1; } read_uint32be(fd, &unknown1); read_uint32be(fd, &unknown2); DEBUGF("Object: %s, size: %d bytes, version: 0x%04x, pos: %d\n",fourcc2str(obj.fourcc),(int)obj.size,obj.version,(int)curpos); DEBUGF(" unknown1=%d (0x%08x)\n",unknown1,unknown1); DEBUGF(" unknown2=%d (0x%08x)\n",unknown2,unknown2); res = real_read_object_header(fd, &obj); header_end = 0; while(res) { DEBUGF("Object: %s, size: %d bytes, version: 0x%04x, pos: %d\n",fourcc2str(obj.fourcc),(int)obj.size,obj.version,(int)curpos); skipped = 10; if(obj.fourcc == FOURCC('I','N','D','X')) break; switch (obj.fourcc) { case FOURCC('P','R','O','P'): /* File properties */ read_uint32be(fd, &max_bitrate); read_uint32be(fd, &rmctx->bit_rate); /*avg bitrate*/ read_uint32be(fd, &max_packet_size); read_uint32be(fd, &avg_packet_size); read_uint32be(fd, &packet_count); read_uint32be(fd, &rmctx->duration); read_uint32be(fd, &preroll); read_uint32be(fd, &index_offset); read_uint32be(fd, &rmctx->data_offset); read_uint16be(fd, &num_streams); read_uint16be(fd, &rmctx->flags); skipped += 40; DEBUGF(" max_bitrate = %d\n",max_bitrate); DEBUGF(" avg_bitrate = %d\n",avg_bitrate); DEBUGF(" max_packet_size = %d\n",max_packet_size); DEBUGF(" avg_packet_size = %d\n",avg_packet_size); DEBUGF(" packet_count = %d\n",packet_count); DEBUGF(" duration = %d\n",rmctx->duration); DEBUGF(" preroll = %d\n",preroll); DEBUGF(" index_offset = %d\n",index_offset); DEBUGF(" data_offset = %d\n",rmctx->data_offset); DEBUGF(" num_streams = %d\n",num_streams); DEBUGF(" flags=0x%04x\n",flags); break; case FOURCC('C','O','N','T'): /* Four strings - Title, Author, Copyright, Comment */ skipped += read_str(fd,title); skipped += read_str(fd,author); skipped += read_str(fd,copyright); skipped += read_str(fd,comment); DEBUGF(" title=\"%s\"\n",title); DEBUGF(" author=\"%s\"\n",author); DEBUGF(" copyright=\"%s\"\n",copyright); DEBUGF(" comment=\"%s\"\n",comment); break; case FOURCC('M','D','P','R'): /* Media properties */ read_uint16be(fd,&stream_id); skipped += 2; read_uint32be(fd,&max_bitrate); skipped += 4; read_uint32be(fd,&avg_bitrate); skipped += 4; read_uint32be(fd,&max_packet_size); skipped += 4; read_uint32be(fd,&avg_packet_size); skipped += 4; read_uint32be(fd,&start_time); skipped += 4; read_uint32be(fd,&preroll); skipped += 4; read_uint32be(fd,&duration); skipped += 4; skipped += read_str(fd,desc); skipped += read_str(fd,mimetype); read_uint32be(fd,&codec_data_size); skipped += 4; //From ffmpeg: codec_pos = url_ftell(pb); read_uint32be(fd,&v); skipped += 4; DEBUGF(" stream_id = 0x%04x\n",stream_id); DEBUGF(" max_bitrate = %d\n",max_bitrate); DEBUGF(" avg_bitrate = %d\n",avg_bitrate); DEBUGF(" max_packet_size = %d\n",max_packet_size); DEBUGF(" avg_packet_size = %d\n",avg_packet_size); DEBUGF(" start_time = %d\n",start_time); DEBUGF(" preroll = %d\n",preroll); DEBUGF(" duration = %d\n",duration); DEBUGF(" desc=\"%s\"\n",desc); DEBUGF(" mimetype=\"%s\"\n",mimetype); DEBUGF(" codec_data_size = %d\n",codec_data_size); DEBUGF(" v=\"%s\"\n", fourcc2str(v)); if (v == FOURCC('.','r','a',0xfd)) { skipped += real_read_audio_stream_info(fd, rmctx); } break; case FOURCC('D','A','T','A'): read_uint32be(fd,&rmctx->nb_packets); skipped += 4; read_uint32be(fd,&next_data_off); skipped += 4; if (!rmctx->nb_packets && (rmctx->flags & 4)) rmctx->nb_packets = 3600 * 25; /*** * nb_packets correction : * in some samples, number of packets may not exactly form * an integer number of scrambling units. This is corrected * by constructing a partially filled unit out of the few * remaining samples at the end of decoding. ***/ if(rmctx->nb_packets % rmctx->sub_packet_h) rmctx->nb_packets += rmctx->sub_packet_h - (rmctx->nb_packets % rmctx->sub_packet_h); DEBUGF(" data_nb_packets = %d\n",rmctx->nb_packets); DEBUGF(" next DATA offset = %d\n",next_data_off); header_end = 1; break; } if(header_end) break; curpos = lseek(fd, obj.size - skipped, SEEK_CUR); res = real_read_object_header(fd, &obj); } return 0; } void rm_get_packet_fd(int fd,RMContext *rmctx, RMPacket *pkt) { uint8_t unknown,packet_group; uint16_t x; uint16_t sps = rmctx->sub_packet_size; uint16_t h = rmctx->sub_packet_h; uint16_t y = rmctx->sub_packet_cnt; uint16_t w = rmctx->audio_framesize; int res; do { y = rmctx->sub_packet_cnt; read_uint16be(fd,&pkt->version); read_uint16be(fd,&pkt->length); read_uint16be(fd,&pkt->stream_number); read_uint32be(fd,&pkt->timestamp); DEBUGF(" version = %d\n" " length = %d\n" " stream = %d\n" " timestmp= %d\n",pkt->version,pkt->length,pkt->stream_number,pkt->timestamp); //getchar(); if(pkt->version == 0) { read_uint8(fd,&packet_group); read_uint8(fd,&pkt->flags); } if(pkt->version == 1) read_uint8(fd,&unknown); if (pkt->flags & 2) /* keyframe */ y = rmctx->sub_packet_cnt = 0; if (!y) /* if keyframe update playback elapsed time */ rmctx->audiotimestamp = pkt->timestamp; for(x = 0 ; x < w/sps; x++) { res = read(fd,pkt->data+(sps*(h*x+((h+1)/2)*(y&1)+(y>>1))), sps); } rmctx->audio_pkt_cnt++; }while(++(rmctx->sub_packet_cnt) < h); } #endif /*TEST*/ int rm_get_packet(uint8_t **src,RMContext *rmctx, RMPacket *pkt) { int consumed = 0; uint8_t unknown; uint16_t x, place; uint16_t sps = rmctx->sub_packet_size; uint16_t h = rmctx->sub_packet_h; uint16_t y = rmctx->sub_packet_cnt; uint16_t w = rmctx->audio_framesize; do { y = rmctx->sub_packet_cnt; pkt->version = get_uint16be(*src); /* Simple error checking */ if(pkt->version != 0 && pkt->version != 1) { DEBUGF("parsing packets failed\n"); return -1; } pkt->length = get_uint16be(*src+2); pkt->stream_number = get_uint16be(*src+4); pkt->timestamp = get_uint32be(*src+6); /*DEBUGF(" version = %d\n" " length = %d\n" " stream = %d\n" " timestamp= %d\n\n",pkt->version,pkt->length,pkt->stream_number,pkt->timestamp);*/ unknown = get_uint8(*src+10); pkt->flags = get_uint8(*src+11); if(pkt->version == 1) unknown = get_uint8(*src+10); if (pkt->flags & 2) /* keyframe */ y = rmctx->sub_packet_cnt = 0; if (!y) rmctx->audiotimestamp = pkt->timestamp; advance_buffer(src,12); consumed += 12; for(x = 0 ; x < w/sps; x++) { place = sps*(h*x+((h+1)/2)*(y&1)+(y>>1)); pkt->frames[place/sps] = *src; advance_buffer(src,sps); consumed += sps; } rmctx->audio_pkt_cnt++; }while(++(rmctx->sub_packet_cnt) < h); return consumed; } #ifdef DEBUG void dump_rm_context(RMContext *rmctx) { DEBUGF("block_align = %d\n", rmctx->block_align); DEBUGF("nb_channels = %d\n", rmctx->nb_channels); DEBUGF("sample_rate = %d\n", rmctx->sample_rate); DEBUGF("bit_rate = %d\n", rmctx->bit_rate ); } #endif