/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2005 Dave Chapman * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "codeclib.h" #include #include CODEC_HEADER struct mad_stream stream IBSS_ATTR; struct mad_frame frame IBSS_ATTR; struct mad_synth synth IBSS_ATTR; /* The following function is used inside libmad - let's hope it's never called. */ void abort(void) { } #define INPUT_CHUNK_SIZE 8192 mad_fixed_t mad_frame_overlap[2][32][18] IBSS_ATTR; unsigned char mad_main_data[MAD_BUFFER_MDLEN] IBSS_ATTR; /* TODO: what latency does layer 1 have? */ int mpeg_latency[3] = { 0, 481, 529 }; int mpeg_framesize[3] = {384, 1152, 1152}; #ifdef USE_IRAM extern char iramcopy[]; extern char iramstart[]; extern char iramend[]; extern char iedata[]; extern char iend[]; #endif struct codec_api *ci; void init_mad(void) { ci->memset(&stream, 0, sizeof(struct mad_stream)); ci->memset(&frame, 0, sizeof(struct mad_frame)); ci->memset(&synth, 0, sizeof(struct mad_synth)); mad_stream_init(&stream); mad_frame_init(&frame); mad_synth_init(&synth); /* We do this so libmad doesn't try to call codec_calloc() */ ci->memset(mad_frame_overlap, 0, sizeof(mad_frame_overlap)); frame.overlap = &mad_frame_overlap; stream.main_data = &mad_main_data; } /* this is the codec entry point */ enum codec_status codec_start(struct codec_api *api) { int status; size_t size; int file_end; int samples_to_skip; /* samples to skip in total for this file (at start) */ char *inputbuffer; int64_t samplesdone; int stop_skip, start_skip; int current_stereo_mode = -1; unsigned long current_frequency = 0; int framelength; int padding = MAD_BUFFER_GUARD; /* to help mad decode the last frame */ ci = api; #ifdef USE_IRAM ci->memcpy(iramstart, iramcopy, iramend - iramstart); ci->memset(iedata, 0, iend - iedata); #endif if (codec_init(api)) return CODEC_ERROR; /* Create a decoder instance */ ci->configure(DSP_DITHER, (bool *)false); ci->configure(DSP_SET_SAMPLE_DEPTH, (int *)(MAD_F_FRACBITS)); ci->configure(DSP_SET_CLIP_MIN, (int *)-MAD_F_ONE); ci->configure(DSP_SET_CLIP_MAX, (int *)(MAD_F_ONE - 1)); ci->configure(CODEC_SET_FILEBUF_CHUNKSIZE, (int *)(1024*16)); next_track: status = CODEC_OK; /* Reinitializing seems to be necessary to avoid playback quircks when seeking. */ init_mad(); file_end = 0; while (!*ci->taginfo_ready && !ci->stop_codec) ci->sleep(1); ci->configure(DSP_SET_FREQUENCY, (int *)ci->id3->frequency); current_frequency = ci->id3->frequency; codec_set_replaygain(ci->id3); ci->request_buffer(&size, ci->id3->first_frame_offset); ci->advance_buffer(size); if (ci->id3->lead_trim >= 0 && ci->id3->tail_trim >= 0) { stop_skip = ci->id3->tail_trim - mpeg_latency[ci->id3->layer]; if (stop_skip < 0) stop_skip = 0; start_skip = ci->id3->lead_trim + mpeg_latency[ci->id3->layer]; } else { stop_skip = 0; /* We want to skip this amount anyway */ start_skip = mpeg_latency[ci->id3->layer]; } /* Libmad will not decode the last frame without 8 bytes of extra padding in the buffer. So, we can trick libmad into not decoding the last frame if we are to skip it entirely and then cut the appropriate samples from final frame that we did decode. Note, if all tags (ID3, APE) are not properly stripped from the end of the file, this trick will not work. */ if (stop_skip >= mpeg_framesize[ci->id3->layer]) { padding = 0; stop_skip -= mpeg_framesize[ci->id3->layer]; } else { padding = MAD_BUFFER_GUARD; } samplesdone = ((int64_t)ci->id3->elapsed) * current_frequency / 1000; /* Don't skip any samples unless we start at the beginning. */ if (samplesdone > 0) samples_to_skip = 0; else samples_to_skip = start_skip; framelength = 0; /* This is the decoding loop. */ while (1) { ci->yield(); if (ci->stop_codec || ci->new_track) break; if (ci->seek_time) { int newpos; samplesdone = ((int64_t)(ci->seek_time-1))*current_frequency/1000; if (ci->seek_time-1 == 0) { newpos = ci->id3->first_frame_offset; samples_to_skip = start_skip; } else { newpos = ci->mp3_get_filepos(ci->seek_time-1); samples_to_skip = 0; } if (!ci->seek_buffer(newpos)) break; ci->seek_complete(); init_mad(); framelength = 0; } /* Lock buffers */ if (stream.error == 0) { inputbuffer = ci->request_buffer(&size, INPUT_CHUNK_SIZE); if (size == 0 || inputbuffer == NULL) break; mad_stream_buffer(&stream, (unsigned char *)inputbuffer, size + padding); } if (mad_frame_decode(&frame, &stream)) { if (stream.error == MAD_FLAG_INCOMPLETE || stream.error == MAD_ERROR_BUFLEN) { /* This makes the codec support partially corrupted files */ if (file_end == 30) break; /* Fill the buffer */ if (stream.next_frame) ci->advance_buffer_loc((void *)stream.next_frame); else ci->advance_buffer(size); stream.error = 0; file_end++; continue; } else if (MAD_RECOVERABLE(stream.error)) { continue; } else { /* Some other unrecoverable error */ status = CODEC_ERROR; break; } break; } file_end = 0; /* Do the pcmbuf insert here. Note, this is the PREVIOUS frame's pcm data (not the one just decoded above). When we exit the decoding loop we will need to process the final frame that was decoded. */ if (framelength > 0) { /* In case of a mono file, the second array will be ignored. */ ci->pcmbuf_insert_split(&synth.pcm.samples[0][samples_to_skip], &synth.pcm.samples[1][samples_to_skip], framelength * 4); /* Only skip samples for the first frame added. */ samples_to_skip = 0; } mad_synth_frame(&synth, &frame); /* Check if sample rate and stereo settings changed in this frame. */ if (frame.header.samplerate != current_frequency) { current_frequency = frame.header.samplerate; ci->configure(DSP_SWITCH_FREQUENCY, (int *)current_frequency); } if (MAD_NCHANNELS(&frame.header) == 2) { if (current_stereo_mode != STEREO_NONINTERLEAVED) { ci->configure(DSP_SET_STEREO_MODE, (int *)STEREO_NONINTERLEAVED); current_stereo_mode = STEREO_NONINTERLEAVED; } } else { if (current_stereo_mode != STEREO_MONO) { ci->configure(DSP_SET_STEREO_MODE, (int *)STEREO_MONO); current_stereo_mode = STEREO_MONO; } } if (stream.next_frame) ci->advance_buffer_loc((void *)stream.next_frame); else ci->advance_buffer(size); framelength = synth.pcm.length - samples_to_skip; if (framelength < 0) { framelength = 0; samples_to_skip -= synth.pcm.length; } samplesdone += framelength; ci->set_elapsed(samplesdone / (current_frequency / 1000)); } /* Finish the remaining decoded frame. Cut the required samples from the end. */ if (framelength > stop_skip) ci->pcmbuf_insert_split(synth.pcm.samples[0], synth.pcm.samples[1], (framelength - stop_skip) * 4); stream.error = 0; if (ci->request_next_track()) goto next_track; return status; }