ref: a8e8a915d3d2f3071b43a8ffcff91f6d464173a1
dir: /common/faad/aacinfo.c/
/* ** FAAD2 - Freeware Advanced Audio (AAC) Decoder including SBR decoding ** Copyright (C) 2003 M. Bakker, Ahead Software AG, http://www.nero.com ** ** 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 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 General Public License for more details. ** ** You should have received a copy of the GNU General Public License ** along with this program; if not, write to the Free Software ** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. ** ** Any non-GPL usage of this software or parts of this software is strictly ** forbidden. ** ** Commercial non-GPL licensing of this software is possible. ** For more info contact Ahead Software through Mpeg4AAClicense@nero.com. ** ** $Id: aacinfo.c,v 1.4 2003/07/29 08:20:11 menno Exp $ **/ #ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #include <windows.h> #endif #include <malloc.h> #include "filestream.h" #include "aacinfo.h" #define ADIF_MAX_SIZE 30 /* Should be enough */ #define ADTS_MAX_SIZE 10 /* Should be enough */ static int sample_rates[] = {96000,88200,64000,48000,44100,32000,24000,22050,16000,12000,11025,8000}; static int read_ADIF_header(FILE_STREAM *file, faadAACInfo *info) { int bitstream; unsigned char buffer[ADIF_MAX_SIZE]; int skip_size = 0; int sf_idx; /* Get ADIF header data */ info->headertype = 1; if(read_buffer_filestream(file, buffer, ADIF_MAX_SIZE) < 0) return -1; /* copyright string */ if(buffer[0] & 0x80) skip_size += 9; /* skip 9 bytes */ bitstream = buffer[0 + skip_size] & 0x10; info->bitrate = ((unsigned int)(buffer[0 + skip_size] & 0x0F)<<19)| ((unsigned int)buffer[1 + skip_size]<<11)| ((unsigned int)buffer[2 + skip_size]<<3)| ((unsigned int)buffer[3 + skip_size] & 0xE0); if (bitstream == 0) { info->object_type = ((buffer[6 + skip_size]&0x01)<<1)|((buffer[7 + skip_size]&0x80)>>7); sf_idx = (buffer[7 + skip_size]&0x78)>>3; } else { info->object_type = (buffer[4 + skip_size] & 0x18)>>3; sf_idx = ((buffer[4 + skip_size] & 0x07)<<1)|((buffer[5 + skip_size] & 0x80)>>7); } info->sampling_rate = sample_rates[sf_idx]; return 0; } static int read_ADTS_header(FILE_STREAM *file, faadAACInfo *info, unsigned long **seek_table, int *seek_table_len, int tagsize, int no_seek_table) { /* Get ADTS header data */ unsigned char buffer[ADTS_MAX_SIZE]; int frames, framesinsec=0, t_framelength = 0, frame_length, sr_idx, ID; int second = 0, pos; int i; float frames_per_sec = 0; unsigned long bytes; unsigned long *tmp_seek_table = NULL; info->headertype = 2; /* Read all frames to ensure correct time and bitrate */ for(frames=0; /* */; frames++, framesinsec++) { /* If streaming, only go until we hit 5 seconds worth */ if(file->http) { if(frames >= 43 * 5) { break; } } pos = tell_filestream(file); /* 12 bit SYNCWORD */ bytes = read_buffer_filestream(file, buffer, ADTS_MAX_SIZE); if(bytes != ADTS_MAX_SIZE) { /* Bail out if no syncword found */ break; } /* check syncword */ if (!((buffer[0] == 0xFF)&&((buffer[1] & 0xF6) == 0xF0))) break; if(!frames) { /* fixed ADTS header is the same for every frame, so we read it only once */ /* Syncword found, proceed to read in the fixed ADTS header */ ID = buffer[1] & 0x08; info->object_type = (buffer[2]&0xC0)>>6; sr_idx = (buffer[2]&0x3C)>>2; info->channels = ((buffer[2]&0x01)<<2)|((buffer[3]&0xC0)>>6); frames_per_sec = sample_rates[sr_idx] / 1024.f; } /* ...and the variable ADTS header */ if (ID == 0) { info->version = 4; } else { /* MPEG-2 */ info->version = 2; } frame_length = ((((unsigned int)buffer[3] & 0x3)) << 11) | (((unsigned int)buffer[4]) << 3) | (buffer[5] >> 5); t_framelength += frame_length; if(!file->http) { if(framesinsec == 43) framesinsec = 0; if(framesinsec == 0 && seek_table_len) { tmp_seek_table = (unsigned long *) realloc(tmp_seek_table, (second + 1) * sizeof(unsigned long)); tmp_seek_table[second] = pos; } if(framesinsec == 0) second++; } /* NOTE: While simply skipping ahead by reading may seem to be more work than seeking, it is actually much faster, and keeps compatibility with streaming */ for(i=0; i < frame_length - ADTS_MAX_SIZE; i++) { if(read_byte_filestream(file) < 0) break; } } if(seek_table_len) { *seek_table_len = second; *seek_table = tmp_seek_table; } info->sampling_rate = sample_rates[sr_idx]; info->bitrate = (int)(((t_framelength / frames) * (info->sampling_rate/1024.0)) +0.5)*8; if(file->http) { /* Since we only use 5 seconds of aac data to get a rough bitrate, we must use a different method of calculating the overall length */ if(filelength_filestream(file)) { info->length = (int)((filelength_filestream(file)/(((info->bitrate*8)/1024)*16))*1000); } else { /* Since the server didnt tell us how long the file is, we have no way of determining length */ info->length = 0; } } else { info->length = (int)((float)(frames/frames_per_sec))*1000; } return 0; } int get_AAC_format(char *filename, faadAACInfo *info, unsigned long **seek_table, int *seek_table_len, int no_seek_table) { unsigned long tagsize; FILE_STREAM *file; char buffer[10]; unsigned long file_len; unsigned char adxx_id[5]; unsigned long tmp; memset(info, 0, sizeof(faadAACInfo)); file = open_filestream(filename); if(file == NULL) return -1; file_len = filelength_filestream(file); /* Skip the tag, if it's there */ tmp = read_buffer_filestream(file, buffer, 10); if (StringComp(buffer, "ID3", 3) == 0) { unsigned int i; /* high bit is not used */ tagsize = (buffer[6] << 21) | (buffer[7] << 14) | (buffer[8] << 7) | (buffer[9] << 0); for(i=0; i < tagsize; i++) if(read_byte_filestream(file) < 0) return -1; tagsize += 10; } else { tagsize = 0; /* Simple hack to reset to the beginning */ file->buffer_offset = 0; file->file_offset = 0; } if(file_len) file_len -= tagsize; tmp = read_buffer_filestream(file, adxx_id, 2); //seek_filestream(file, tagsize, FILE_BEGIN); adxx_id[5-1] = 0; info->length = 0; /* Determine the header type of the file, check the first two bytes */ if(StringComp(adxx_id, "AD", 2) == 0) { /* We think its an ADIF header, but check the rest just to make sure */ tmp = read_buffer_filestream(file, adxx_id + 2, 2); if(StringComp(adxx_id, "ADIF", 4) == 0) { read_ADIF_header(file, info); } } else { /* No ADIF, check for ADTS header */ if ((adxx_id[0] == 0xFF)&&((adxx_id[1] & 0xF6) == 0xF0)) { /* ADTS header located */ /* Since this routine must work for streams, we can't use the seek function to go backwards, thus we have to use a quick hack as seen below to go back where we need to. */ if(file->buffer_offset >= 2) { // simple seeking hack, though not really safe, the probability of it causing a problem is low. file->buffer_offset -= 2; file->file_offset -= 2; } read_ADTS_header(file, info, seek_table, seek_table_len, tagsize, no_seek_table); } else { /* Unknown/headerless AAC file, assume format: */ info->version = 2; info->bitrate = 128000; info->sampling_rate = 44100; info->channels = 2; info->headertype = 0; info->object_type = 1; } } close_filestream(file); return 0; } int StringComp(char const *str1, char const *str2, unsigned long len) { signed int c1 = 0, c2 = 0; while (len--) { c1 = *str1++; c2 = *str2++; if (c1 == 0 || c1 != c2) break; } return c1 - c2; } #ifdef TEST /* Program to test aacinfo functionality */ #include <stdio.h> void main(int argc, char *argv[]) { faadAACInfo info; unsigned long *seek_table = NULL; int seek_table_len = 0; char *header, *object; if (argc < 2) { fprintf(stderr, "USAGE: aacinfo aacfile.aac\n"); return; } get_AAC_format(argv[1], &info, &seek_table, &seek_table_len, 0); fprintf(stdout, "MPEG version: %d\n", info.version); fprintf(stdout, "channels: %d\n", info.channels); fprintf(stdout, "sampling_rate: %d\n", info.sampling_rate); fprintf(stdout, "bitrate: %d\n", info.bitrate); fprintf(stdout, "length: %.3f\n", (float)info.length/1000.0); switch (info.object_type) { case 0: object = "MAIN"; break; case 1: object = "LC"; break; case 2: object = "SSR"; break; case 3: object = "LTP"; break; } fprintf(stdout, "object_type: %s\n", object); switch (info.headertype) { case 0: header = "RAW"; break; case 1: header = "ADIF"; break; case 2: header = "ADTS"; break; } fprintf(stdout, "headertype: %s\n", header); } #endif