/* * ttadec.c * * Description: TTAv1 decoder library for HW players * Developed by: Alexander Djourik * Pavel Zhilin * * Copyright (c) 2004 True Audio Software. All rights reserved. * */ /* * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the True Audio Software nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include "codeclib.h" #include "ttalib.h" #include "ttadec.h" #include "filter.h" /******************* static variables and structures *******************/ static unsigned char isobuffers[ISO_BUFFERS_SIZE + 4] IBSS_ATTR; static unsigned char * const iso_buffers_end ICONST_ATTR = isobuffers + ISO_BUFFERS_SIZE; static unsigned int pcm_buffer_size IBSS_ATTR; static decoder tta[MAX_NCH] IBSS_ATTR; /* decoder state */ /* Rockbox speciffic: cache is defined in get_samples() (non static value) */ /* static int cache[MAX_NCH]; // decoder cache */ tta_info *ttainfo IBSS_ATTR; /* currently playing file info */ static unsigned int fframes IBSS_ATTR; /* number of frames in file */ static unsigned int framelen IBSS_ATTR; /* the frame length in samples */ static unsigned int lastlen IBSS_ATTR; /* the length of the last frame in samples */ static unsigned int data_pos IBSS_ATTR; /* currently playing frame index */ static unsigned int data_cur IBSS_ATTR; /* the playing position in frame */ static int maxvalue IBSS_ATTR; /* output data max value */ /* Rockbox speciffic: seek_table is static size */ static unsigned int seek_table[MAX_SEEK_TABLE_SIZE]; /* the playing position table */ static unsigned int st_state; /* seek table status */ static unsigned int frame_crc32 IBSS_ATTR; static unsigned int bit_count IBSS_ATTR; static unsigned int bit_cache IBSS_ATTR; static unsigned char *bitpos IBSS_ATTR; /* Rockbox speciffic: deletes read_id3_tags(). */ /* static int read_id3_tags (tta_info *info); */ /********************* rockbox helper functions *************************/ /* emulate stdio functions */ static size_t tta_fread(void *ptr, size_t size, size_t nobj) { size_t read_size; unsigned char *buffer = ci->request_buffer(&read_size, size * nobj); if (read_size > 0) { ci->memcpy(ptr, buffer, read_size); ci->advance_buffer(read_size); } return read_size; } static int tta_fseek(long offset, int origin) { switch (origin) { case SEEK_CUR: ci->advance_buffer(offset); break; case SEEK_SET: ci->seek_buffer(offset); break; case SEEK_END: ci->seek_buffer(offset + ci->id3->filesize); break; default: return -1; } return 0; } /************************* crc32 functions *****************************/ #define UPDATE_CRC32(x, crc) crc = \ (((crc>>8) & 0x00FFFFFF) ^ crc32_table[(crc^x) & 0xFF]) static unsigned int crc32 (unsigned char *buffer, unsigned int len) { unsigned int i; unsigned int crc = 0xFFFFFFFF; for (i = 0; i < len; i++) UPDATE_CRC32(buffer[i], crc); return (crc ^ 0xFFFFFFFF); } /************************* bit operations ******************************/ #define GET_BINARY(value, bits) \ while (bit_count < bits) { \ if (bitpos == iso_buffers_end) { \ if (!tta_fread(isobuffers, 1, ISO_BUFFERS_SIZE)) { \ ttainfo->STATE = READ_ERROR; \ return -1; \ } \ bitpos = isobuffers; \ } \ UPDATE_CRC32(*bitpos, frame_crc32); \ bit_cache |= *bitpos << bit_count; \ bit_count += 8; \ bitpos++; \ } \ value = bit_cache & bit_mask[bits]; \ bit_cache >>= bits; \ bit_count -= bits; \ bit_cache &= bit_mask[bit_count]; #define GET_UNARY(value) \ value = 0; \ while (!(bit_cache ^ bit_mask[bit_count])) { \ if (bitpos == iso_buffers_end) { \ if (!tta_fread(isobuffers, 1, ISO_BUFFERS_SIZE)) { \ ttainfo->STATE = READ_ERROR; \ return -1; \ } \ bitpos = isobuffers; \ } \ value += bit_count; \ bit_cache = *bitpos++; \ UPDATE_CRC32(bit_cache, frame_crc32); \ bit_count = 8; \ } \ while (bit_cache & 1) { \ value++; \ bit_cache >>= 1; \ bit_count--; \ } \ bit_cache >>= 1; \ bit_count--; /************************* rice operations ******************************/ static inline int update_rice(int value, adapt *rice, int depth, const unsigned int *shift_table) { if (depth > 0) { rice->sum1 += value - (rice->sum1 >> 4); if (rice->k1 > 0 && rice->sum1 < shift_table[rice->k1]) rice->k1--; else if (rice->sum1 > shift_table[rice->k1 + 1]) rice->k1++; value += *(shift_table + rice->k0 - 4); } rice->sum0 += value - (rice->sum0 >> 4); if (rice->k0 > 0 && rice->sum0 < shift_table[rice->k0]) rice->k0--; else if (rice->sum0 > shift_table[rice->k0 + 1]) rice->k0++; return DEC(value); } /************************* buffer functions ******************************/ static void init_buffer_read(void) { frame_crc32 = 0xFFFFFFFFUL; bit_count = bit_cache = 0; bitpos = iso_buffers_end; } static int done_buffer_read(void) { unsigned int crc32, rbytes; frame_crc32 ^= 0xFFFFFFFFUL; rbytes = iso_buffers_end - bitpos; if (rbytes < sizeof(int)) { ci->memcpy(isobuffers, bitpos, 4); if (!tta_fread(isobuffers + rbytes, 1, ISO_BUFFERS_SIZE - rbytes)) return -1; bitpos = isobuffers; } ci->memcpy(&crc32, bitpos, 4); crc32 = ENDSWAP_INT32(crc32); bitpos += sizeof(int); if (crc32 != frame_crc32) return -1; bit_cache = bit_count = 0; frame_crc32 = 0xFFFFFFFFUL; return 0; } /************************* decoder functions ****************************/ const char *get_error_str (int error) { switch (error) { case NO_ERROR: return "No errors found"; case OPEN_ERROR: return "Can't open file"; case FORMAT_ERROR: return "Not supported file format"; case FILE_ERROR: return "File is corrupted"; case READ_ERROR: return "Can't read from file"; case MEMORY_ERROR: return "Insufficient memory available"; default: return "Unknown error code"; } } int set_tta_info (tta_info *info) { unsigned int checksum; unsigned int datasize; unsigned int origsize; tta_hdr ttahdr; /* clear the memory */ ci->memset (info, 0, sizeof(tta_info)); /* skip id3v2 tags */ tta_fseek(ci->id3->id3v2len, SEEK_SET); /* read TTA header */ if (tta_fread (&ttahdr, 1, sizeof (ttahdr)) == 0) { info->STATE = READ_ERROR; return -1; } /* check for TTA3 signature */ if (ENDSWAP_INT32(ttahdr.TTAid) != TTA1_SIGN) { DEBUGF("ID error: %x\n", ENDSWAP_INT32(ttahdr.TTAid)); info->STATE = FORMAT_ERROR; return -1; } ttahdr.CRC32 = ENDSWAP_INT32(ttahdr.CRC32); checksum = crc32((unsigned char *) &ttahdr, sizeof(tta_hdr) - sizeof(int)); if (checksum != ttahdr.CRC32) { DEBUGF("CRC error: %x != %x\n", ttahdr.CRC32, checksum); info->STATE = FILE_ERROR; return -1; } ttahdr.AudioFormat = ENDSWAP_INT16(ttahdr.AudioFormat); ttahdr.NumChannels = ENDSWAP_INT16(ttahdr.NumChannels); ttahdr.BitsPerSample = ENDSWAP_INT16(ttahdr.BitsPerSample); ttahdr.SampleRate = ENDSWAP_INT32(ttahdr.SampleRate); ttahdr.DataLength = ENDSWAP_INT32(ttahdr.DataLength); /* check for player supported formats */ if (ttahdr.AudioFormat != WAVE_FORMAT_PCM || ttahdr.NumChannels > MAX_NCH || ttahdr.BitsPerSample > MAX_BPS ||( ttahdr.SampleRate != 16000 && ttahdr.SampleRate != 22050 && ttahdr.SampleRate != 24000 && ttahdr.SampleRate != 32000 && ttahdr.SampleRate != 44100 && ttahdr.SampleRate != 48000 && ttahdr.SampleRate != 64000 && ttahdr.SampleRate != 88200 && ttahdr.SampleRate != 96000)) { info->STATE = FORMAT_ERROR; DEBUGF("illegal audio format: %d channels: %d samplerate: %d\n", ttahdr.AudioFormat, ttahdr.NumChannels, ttahdr.SampleRate); return -1; } /* fill the File Info */ info->NCH = ttahdr.NumChannels; info->BPS = ttahdr.BitsPerSample; info->BSIZE = (ttahdr.BitsPerSample + 7)/8; info->FORMAT = ttahdr.AudioFormat; info->SAMPLERATE = ttahdr.SampleRate; info->DATALENGTH = ttahdr.DataLength; info->FRAMELEN = (int) MULTIPLY_FRAME_TIME(ttahdr.SampleRate); info->LENGTH = ttahdr.DataLength / ttahdr.SampleRate; info->DATAPOS = ci->id3->id3v2len; info->FILESIZE = ci->id3->filesize; datasize = info->FILESIZE - info->DATAPOS; origsize = info->DATALENGTH * info->BSIZE * info->NCH; /* info->COMPRESS = (double) datasize / origsize; */ info->BITRATE = (int) ((uint64_t) datasize * info->SAMPLERATE * info->NCH * info->BPS / (origsize * 1000LL)); return 0; } static void rice_init(adapt *rice, unsigned int k0, unsigned int k1) { rice->k0 = k0; rice->k1 = k1; rice->sum0 = shift_16[k0]; rice->sum1 = shift_16[k1]; } static void decoder_init(decoder *tta, int nch, int byte_size) { int shift = flt_set[byte_size - 1]; int i; for (i = 0; i < nch; i++) { filter_init(&tta[i].fst, shift); rice_init(&tta[i].rice, 10, 10); tta[i].last = 0; } } static void seek_table_init (unsigned int *seek_table, unsigned int len, unsigned int data_offset) { unsigned int *st, frame_len; for (st = seek_table; st < (seek_table + len); st++) { frame_len = ENDSWAP_INT32(*st); *st = data_offset; data_offset += frame_len; } } int set_position (unsigned int pos, enum tta_seek_type type) { unsigned int i; unsigned int seek_pos; if (type == TTA_SEEK_TIME) { if (pos >= fframes) pos = fframes -1; } else { pos -= ttainfo->DATAPOS; for (i = 1; i < fframes; i++) { if (seek_table[i] > pos) break; } pos = i - 1; } if (!st_state) { ttainfo->STATE = FILE_ERROR; return -1; } seek_pos = ttainfo->DATAPOS + seek_table[data_pos = pos]; if (tta_fseek(seek_pos, SEEK_SET) < 0) { ttainfo->STATE = READ_ERROR; return -1; } data_cur = 0; framelen = 0; /* init bit reader */ init_buffer_read(); return data_pos * ttainfo->FRAMELEN; } int player_init (tta_info *info) { unsigned int checksum; unsigned int data_offset; unsigned int st_size; #ifdef CPU_COLDFIRE coldfire_set_macsr(0); /* signed integer mode */ #endif ttainfo = info; framelen = 0; data_pos = 0; data_cur = 0; lastlen = ttainfo->DATALENGTH % ttainfo->FRAMELEN; fframes = ttainfo->DATALENGTH / ttainfo->FRAMELEN + (lastlen ? 1 : 0); st_size = (fframes + 1) * sizeof(int); /* * Rockbox speciffic * playable tta file is to MAX_SEEK_TABLE_SIZE frames * about 1:08:15 (frequency 44.1 kHz) */ if (fframes > MAX_SEEK_TABLE_SIZE) { LOGF("frame is too many: %d > %d", fframes, MAX_SEEK_TABLE_SIZE); return -1; } /* read seek table */ if (!tta_fread(seek_table, st_size, 1)) { ttainfo->STATE = READ_ERROR; return -1; } checksum = crc32((unsigned char *) seek_table, st_size - sizeof(int)); st_state = (checksum == ENDSWAP_INT32(seek_table[fframes])); data_offset = sizeof(tta_hdr) + st_size; /* init seek table */ seek_table_init(seek_table, fframes, data_offset); /* init bit reader */ init_buffer_read(); /* * Rockbox speciffic * because pcm data is int32_t, does not multiply ttainfo->BSIZE. */ pcm_buffer_size = PCM_BUFFER_LENGTH * ttainfo->NCH; maxvalue = (1UL << ttainfo->BPS) - 1; return 0; } /* * Rockbox specffic * because the seek table is static size buffer, player_stop() is nooperation function. */ void player_stop (void) { /* if (seek_table) { free(seek_table); seek_table = NULL; } */ } /* * Rockbox speciffic * with the optimization, the decoding logic is modify a little. */ int get_samples (int32_t *buffer) { unsigned int k, depth, unary, binary; int32_t *p = buffer; decoder *dec = tta; int value, res; int cur_pos = pcm_buffer_size; int pcm_shift_bits = TTA_OUTPUT_DEPTH - ttainfo->BPS; int pr_bits = (ttainfo->BSIZE == 1)? 4 : 5; int cache = 0; /* decoder cache */ fltst *fst; adapt *rice; for (res = 0; --cur_pos >= 0;) { fst = &dec->fst; rice = &dec->rice; if (data_cur == framelen) { if (data_pos == fframes) break; if (framelen && done_buffer_read()) { if (set_position(data_pos, TTA_SEEK_TIME) < 0) return -1; if (res) break; } if (data_pos == fframes - 1 && lastlen) framelen = lastlen; else framelen = ttainfo->FRAMELEN; decoder_init(tta, ttainfo->NCH, ttainfo->BSIZE); data_pos++; data_cur = 0; } /* decode Rice unsigned */ GET_UNARY(unary); switch (unary) { case 0: depth = 0; k = rice->k0; break; default: depth = 1; k = rice->k1; unary--; } if (k) { GET_BINARY(binary, k); value = (unary << k) + binary; } else value = unary; value = update_rice(value, rice, depth, shift_16); /* Rockbox specific: the following logic move to update_rice() */ #if 0 if (depth > 0) { rice->sum1 += value - (rice->sum1 >> 4); if (rice->k1 > 0 && rice->sum1 < shift_16[rice->k1]) rice->k1--; else if (rice->sum1 > shift_16[rice->k1 + 1]) rice->k1++; value += bit_shift[rice->k0]; } rice->sum0 += value - (rice->sum0 >> 4); if (rice->k0 > 0 && rice->sum0 < shift_16[rice->k0]) rice->k0--; else if (rice->sum0 > shift_16[rice->k0 + 1]) rice->k0++; value = DEC(value); #endif /* decompress stage 1: adaptive hybrid filter */ hybrid_filter(fst, &value); /* decompress stage 2: fixed order 1 prediction */ value += PREDICTOR1(dec->last, pr_bits); dec->last = value; /* check for errors */ if (abs(value) > maxvalue) { unsigned int tail = pcm_buffer_size / (ttainfo->BSIZE * ttainfo->NCH) - res; ci->memset(buffer, 0, pcm_buffer_size * sizeof(int32_t)); data_cur += tail; res += tail; break; } /* Rockbox speciffic: Rockbox supports max 2channels */ if (ttainfo->NCH == 1) { *p++ = value << pcm_shift_bits; data_cur++; res++; } else { if (dec == tta) { cache = value; dec++; } else { value += cache / 2; cache = value - cache; dec = tta; *p++ = cache << pcm_shift_bits; *p++ = value << pcm_shift_bits; data_cur++; res++; } } } return res; } /* Rockbox speciffic: id3 tags functions delete. */ /* eof */