/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (c) 2010 Yoshihisa Uchida * * 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 "codeclib.h" #include "codecs/libpcm/support_formats.h" CODEC_HEADER /* * SMAF (Synthetic music Mobile Application Format) * * References * [1] YAMAHA Corporation, Synthetic music Mobile Application Format Ver.3.05, 2002 */ enum { SMAF_AUDIO_TRACK_CHUNK = 0, /* PCM Audio Track */ SMAF_SCORE_TRACK_CHUNK, /* Score Track */ }; /* SMAF supported codec formats */ enum { SMAF_FORMAT_UNSUPPORT = 0, /* unsupported format */ SMAF_FORMAT_SIGNED_PCM, /* 2's complement PCM */ SMAF_FORMAT_UNSIGNED_PCM, /* Offset Binary PCM */ SMAF_FORMAT_ADPCM, /* YAMAHA ADPCM */ }; static const int support_formats[2][3] = { {SMAF_FORMAT_SIGNED_PCM, SMAF_FORMAT_ADPCM, SMAF_FORMAT_UNSUPPORT }, {SMAF_FORMAT_SIGNED_PCM, SMAF_FORMAT_UNSIGNED_PCM, SMAF_FORMAT_ADPCM }, }; static const struct pcm_entry pcm_codecs[] = { { SMAF_FORMAT_SIGNED_PCM, get_linear_pcm_codec }, { SMAF_FORMAT_UNSIGNED_PCM, get_linear_pcm_codec }, { SMAF_FORMAT_ADPCM, get_yamaha_adpcm_codec }, }; #define NUM_FORMATS 3 static const int basebits[4] = { 4, 8, 12, 16 }; #define PCM_SAMPLE_SIZE (2048*2) static int32_t samples[PCM_SAMPLE_SIZE] IBSS_ATTR; static const struct pcm_codec *get_codec(uint32_t formattag) { int i; for (i = 0; i < NUM_FORMATS; i++) { if (pcm_codecs[i].format_tag == formattag) { if (pcm_codecs[i].get_codec) return pcm_codecs[i].get_codec(); return 0; } } return 0; } static unsigned int get_be32(const uint8_t *buf) { return (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]; } static int convert_smaf_channels(unsigned int ch) { return (ch >> 7) + 1; } static int convert_smaf_audio_format(unsigned int chunk, unsigned int audio_format) { int idx = (audio_format & 0x70) >> 4; if (idx < 3) return support_formats[chunk][idx]; DEBUGF("CODEC_ERROR: unsupport audio format: %d\n", audio_format); return SMAF_FORMAT_UNSUPPORT; } static int convert_smaf_audio_basebit(unsigned int basebit) { if (basebit < 4) return basebits[basebit]; DEBUGF("CODEC_ERROR: illegal basebit: %d\n", basebit); return 0; } static unsigned int search_chunk(const unsigned char *name, int nlen, off_t *pos) { const unsigned char *buf; unsigned int chunksize; size_t size; while (true) { buf = ci->request_buffer(&size, 8); if (size < 8) break; chunksize = get_be32(buf + 4); ci->advance_buffer(8); *pos += 8; if (memcmp(buf, name, nlen) == 0) return chunksize; ci->advance_buffer(chunksize); *pos += chunksize; } DEBUGF("CODEC_ERROR: missing '%s' chunk\n", name); return 0; } static bool parse_audio_track(struct pcm_format *fmt, unsigned int chunksize, off_t *pos) { const unsigned char *buf; size_t size; /* search PCM Audio Track Chunk */ ci->advance_buffer(chunksize); *pos += chunksize; if (search_chunk("ATR", 3, pos) == 0) { DEBUGF("CODEC_ERROR: missing PCM Audio Track Chunk\n"); return false; } /* * get format * buf * +0: Format Type * +1: Sequence Type * +2: bit 7 0:mono/1:stereo, bit 4-6 format, bit 0-3: frequency * +3: bit 4-7: base bit * +4: TimeBase_D * +5: TimeBase_G * * Note: If PCM Audio Track does not include Sequence Data Chunk, * tmp+6 is the start position of Wave Data Chunk. */ buf = ci->request_buffer(&size, 6); if (size < 6) { DEBUGF("CODEC_ERROR: smaf is too small\n"); return false; } fmt->formattag = convert_smaf_audio_format(SMAF_AUDIO_TRACK_CHUNK, buf[2]); fmt->channels = convert_smaf_channels(buf[2]); fmt->bitspersample = convert_smaf_audio_basebit(buf[3] >> 4); /* search Wave Data Chunk */ ci->advance_buffer(6); *pos += 6; fmt->numbytes = search_chunk("Awa", 3, pos); if (fmt->numbytes == 0) { DEBUGF("CODEC_ERROR: missing Wave Data Chunk\n"); return false; } return true; } static bool parse_score_track(struct pcm_format *fmt, off_t *pos) { const unsigned char *buf; unsigned int chunksize; size_t size; /* parse Optional Data Chunk */ buf = ci->request_buffer(&size, 13); if (size < 13) { DEBUGF("CODEC_ERROR: smaf is too small\n"); return false; } if (memcmp(buf + 5, "OPDA", 4) != 0) { DEBUGF("CODEC_ERROR: missing Optional Data Chunk\n"); return false; } /* Optional Data Chunk size */ chunksize = get_be32(buf + 9); /* search Score Track Chunk */ ci->advance_buffer(13 + chunksize); *pos += (13 + chunksize); if (search_chunk("MTR", 3, pos) == 0) { DEBUGF("CODEC_ERROR: missing Score Track Chunk\n"); return false; } /* * search next chunk * usually, next chunk ('M***') found within 40 bytes. */ buf = ci->request_buffer(&size, 40); if (size < 40) { DEBUGF("CODEC_ERROR: smaf is too small\n"); return false; } size = 0; while (size < 40 && buf[size] != 'M') size++; if (size >= 40) { DEBUGF("CODEC_ERROR: missing Score Track Stream PCM Data Chunk"); return false; } /* search Score Track Stream PCM Data Chunk */ ci->advance_buffer(size); *pos += size; if (search_chunk("Mtsp", 4, pos) == 0) { DEBUGF("CODEC_ERROR: missing Score Track Stream PCM Data Chunk\n"); return false; } /* * parse Score Track Stream Wave Data Chunk * buf * +4-7: chunk size (WaveType(3bytes) + wave data count) * +8: bit 7 0:mono/1:stereo, bit 4-6 format, bit 0-3: base bit * +9: frequency (MSB) * +10: frequency (LSB) */ buf = ci->request_buffer(&size, 9); if (size < 9) { DEBUGF("CODEC_ERROR: smaf is too small\n"); return false; } if (memcmp(buf, "Mwa", 3) != 0) { DEBUGF("CODEC_ERROR: missing Score Track Stream Wave Data Chunk\n"); return false; } fmt->formattag = convert_smaf_audio_format(SMAF_SCORE_TRACK_CHUNK, buf[8]); fmt->channels = convert_smaf_channels(buf[8]); fmt->bitspersample = convert_smaf_audio_basebit(buf[8] & 0xf); fmt->numbytes = get_be32(buf + 4) - 3; *pos += 11; return true; } static bool parse_header(struct pcm_format *fmt, off_t *pos) { const unsigned char *buf; unsigned int chunksize; size_t size; ci->memset(fmt, 0, sizeof(struct pcm_format)); /* check File Chunk and Contents Info Chunk */ buf = ci->request_buffer(&size, 16); if (size < 16) { DEBUGF("CODEC_ERROR: smaf is too small\n"); return false; } if ((memcmp(buf, "MMMD", 4) != 0) || (memcmp(buf + 8, "CNTI", 4) != 0)) { DEBUGF("CODEC_ERROR: does not smaf format\n"); return false; } chunksize = get_be32(buf + 12); ci->advance_buffer(16); *pos = 16; if (chunksize > 5) { if (!parse_audio_track(fmt, chunksize, pos)) return false; } else if (!parse_score_track(fmt, pos)) return false; /* data signess (default signed) */ fmt->is_signed = (fmt->formattag != SMAF_FORMAT_UNSIGNED_PCM); /* data is always big endian */ fmt->is_little_endian = false; return true; } static struct pcm_format format; static uint32_t bytesdone; static uint8_t *read_buffer(size_t *realsize) { uint8_t *buffer = (uint8_t *)ci->request_buffer(realsize, format.chunksize); if (bytesdone + (*realsize) > format.numbytes) *realsize = format.numbytes - bytesdone; bytesdone += *realsize; ci->advance_buffer(*realsize); return buffer; } /* this is the codec entry point */ enum codec_status codec_main(enum codec_entry_call_reason reason) { if (reason == CODEC_LOAD) { /* Generic codec initialisation */ ci->configure(DSP_SET_SAMPLE_DEPTH, PCM_OUTPUT_DEPTH-1); } return CODEC_OK; } /* this is called for each file to process */ enum codec_status codec_run(void) { uint32_t decodedsamples; size_t n; int bufcount; int endofstream; uint8_t *smafbuf; off_t firstblockposn; /* position of the first block in file */ const struct pcm_codec *codec; intptr_t param; if (codec_init()) return CODEC_ERROR; codec_set_replaygain(ci->id3); /* Need to save offset for later use (cleared indirectly by advance_buffer) */ bytesdone = ci->id3->offset; decodedsamples = 0; codec = 0; ci->seek_buffer(0); if (!parse_header(&format, &firstblockposn)) { return CODEC_ERROR; } codec = get_codec(format.formattag); if (codec == 0) { DEBUGF("CODEC_ERROR: unsupport audio format: 0x%x\n", (int)format.formattag); return CODEC_ERROR; } if (!codec->set_format(&format)) { return CODEC_ERROR; } /* check chunksize */ if ((format.chunksize / format.blockalign) * format.samplesperblock * format.channels > PCM_SAMPLE_SIZE) format.chunksize = (PCM_SAMPLE_SIZE / format.blockalign) * format.blockalign; if (format.chunksize == 0) { DEBUGF("CODEC_ERROR: chunksize is 0\n"); return CODEC_ERROR; } ci->configure(DSP_SET_FREQUENCY, ci->id3->frequency); if (format.channels == 2) { ci->configure(DSP_SET_STEREO_MODE, STEREO_INTERLEAVED); } else if (format.channels == 1) { ci->configure(DSP_SET_STEREO_MODE, STEREO_MONO); } else { DEBUGF("CODEC_ERROR: more than 2 channels unsupported\n"); return CODEC_ERROR; } ci->seek_buffer(firstblockposn); /* make sure we're at the correct offset */ if (bytesdone > (uint32_t) firstblockposn) { /* Round down to previous block */ struct pcm_pos *newpos = codec->get_seek_pos(bytesdone - firstblockposn, PCM_SEEK_POS, &read_buffer); if (newpos->pos > format.numbytes) return CODEC_OK; if (ci->seek_buffer(firstblockposn + newpos->pos)) { bytesdone = newpos->pos; decodedsamples = newpos->samples; } } else { /* already where we need to be */ bytesdone = 0; } ci->set_elapsed(decodedsamples*1000LL/ci->id3->frequency); /* The main decoder loop */ endofstream = 0; while (!endofstream) { enum codec_command_action action = ci->get_command(¶m); if (action == CODEC_ACTION_HALT) break; if (action == CODEC_ACTION_SEEK_TIME) { struct pcm_pos *newpos = codec->get_seek_pos(param, PCM_SEEK_TIME, &read_buffer); if (newpos->pos > format.numbytes) { ci->set_elapsed(ci->id3->length); ci->seek_complete(); break; } if (ci->seek_buffer(firstblockposn + newpos->pos)) { bytesdone = newpos->pos; decodedsamples = newpos->samples; } ci->set_elapsed(decodedsamples*1000LL/ci->id3->frequency); ci->seek_complete(); } smafbuf = (uint8_t *)ci->request_buffer(&n, format.chunksize); if (n == 0) break; /* End of stream */ if (bytesdone + n > format.numbytes) { n = format.numbytes - bytesdone; endofstream = 1; } if (codec->decode(smafbuf, n, samples, &bufcount) == CODEC_ERROR) { DEBUGF("codec error\n"); return CODEC_ERROR; } ci->pcmbuf_insert(samples, NULL, bufcount); ci->advance_buffer(n); bytesdone += n; decodedsamples += bufcount; if (bytesdone >= format.numbytes) endofstream = 1; ci->set_elapsed(decodedsamples*1000LL/ci->id3->frequency); } return CODEC_OK; }