#ifdef _MSC_VER #define _USE_MATH_DEFINES #endif #include #include #include "meta.h" #include "adx_keys.h" #include "../coding/coding.h" #define MAX_TEST_FRAMES (INT_MAX/0x8000) static int find_adx_key(STREAMFILE *streamFile, uint8_t type, uint16_t *xor_start, uint16_t *xor_mult, uint16_t *xor_add); /* ADX - CRI Middleware format */ VGMSTREAM * init_vgmstream_adx(STREAMFILE *streamFile) { VGMSTREAM * vgmstream = NULL; off_t start_offset, hist_offset = 0; int loop_flag = 0, channel_count; int32_t loop_start_sample = 0, loop_end_sample = 0; uint16_t version_signature; uint8_t encoding_type; uint8_t frame_size; meta_t header_type; coding_t coding_type; int16_t coef1, coef2; uint16_t xor_start=0,xor_mult=0,xor_add=0; /* checks*/ /* .adx: standard, .adp: Headhunter (DC) */ if (!check_extensions(streamFile,"adx,adp")) goto fail; /* check first 2 bytes */ if ((uint16_t)read_16bitBE(0x00,streamFile)!=0x8000) goto fail; /* get stream offset, check for CRI signature just before */ start_offset = (uint16_t)read_16bitBE(0x02,streamFile) + 4; if ((uint16_t)read_16bitBE(start_offset-6,streamFile)!=0x2863 || /* "(c" */ (uint32_t)read_32bitBE(start_offset-4,streamFile)!=0x29435249 /* ")CRI" */ ) goto fail; /* check for encoding type */ /* 0x02 is for some unknown fixed filter, 0x03 is standard ADX, 0x04 is * ADX with exponential scale, 0x10 is AHX for DC, 0x11 is AHX */ encoding_type = read_8bit(0x04, streamFile); switch (encoding_type) { case 2: coding_type = coding_CRI_ADX_fixed; break; case 3: coding_type = coding_CRI_ADX; break; case 4: coding_type = coding_CRI_ADX_exp; break; default: goto fail; } frame_size = read_8bit(0x05, streamFile); /* check for bits per sample? (only 4 makes sense for ADX) */ if (read_8bit(0x06,streamFile) != 4) goto fail; /* older ADX (adxencd) up to 2ch, newer ADX (criatomencd) up to 8 */ channel_count = read_8bit(0x07,streamFile); /* check version signature, read loop info */ version_signature = read_16bitBE(0x12,streamFile); /* encryption */ if (version_signature == 0x0408) { if (find_adx_key(streamFile, 8, &xor_start, &xor_mult, &xor_add)) { coding_type = coding_CRI_ADX_enc_8; version_signature = 0x0400; } } else if (version_signature == 0x0409) { if (find_adx_key(streamFile, 9, &xor_start, &xor_mult, &xor_add)) { coding_type = coding_CRI_ADX_enc_9; version_signature = 0x0400; } } /* version + extra data */ if (version_signature == 0x0300) { /* early ADX (~2004?) */ size_t base_size = 0x14, loops_size = 0x18; header_type = meta_ADX_03; /* no sample history */ if (start_offset - 6 >= base_size + loops_size) { /* enough space for loop info? */ off_t loops_offset = base_size; /* off+0x00 (2): initial loop padding (the encoder adds a few blank samples so loop start is block-aligned; max 31) * ex. loop_start=12: enc_start=32, padding=20 (32-20=12); loop_start=35: enc_start=64, padding=29 (64-29=35) * off+0x02 (2): loop sample(?) flag (always 1) */ loop_flag = read_32bitBE(loops_offset+0x04,streamFile) != 0; /* loop offset(?) flag (always 1) */ loop_start_sample = read_32bitBE(loops_offset+0x08,streamFile); //loop_start_offset = read_32bitBE(loops_offset+0x0c,streamFile); loop_end_sample = read_32bitBE(loops_offset+0x10,streamFile); //loop_end_offset = read_32bitBE(loops_offset+0x14,streamFile); } } else if (version_signature == 0x0400) { /* common */ size_t base_size = 0x18, hist_size, ainf_size = 0, loops_size = 0x18; off_t ainf_offset; header_type = meta_ADX_04; hist_offset = base_size; /* always present but often blank */ hist_size = (channel_count > 1 ? 4*channel_count : 4+4); /* min is 8, even in 1ch files */ ainf_offset = base_size + hist_size + 0x4; /* not seen with >2ch though */ if ((uint32_t)read_32bitBE(ainf_offset+0x00,streamFile) == 0x41494E46) /* "AINF" */ ainf_size = read_32bitBE(ainf_offset+0x04,streamFile); if (start_offset - ainf_size - 6 >= hist_offset + hist_size + loops_size) { /* enough space for loop info? */ off_t loops_offset = base_size + hist_size; /* off+0x00 (2): initial loop padding (the encoder adds a few blank samples so loop start is block-aligned; max 31) * ex. loop_start=12: enc_start=32, padding=20 (32-20=12); loop_start=35: enc_start=64, padding=29 (64-29=35) * off+0x02 (2): loop sample(?) flag (always 1) */ loop_flag = read_32bitBE(loops_offset+0x04,streamFile) != 0; /* loop offset(?) flag (always 1) */ loop_start_sample = read_32bitBE(loops_offset+0x08,streamFile); //loop_start_offset = read_32bitBE(loops_offset+0x0c,streamFile); loop_end_sample = read_32bitBE(loops_offset+0x10,streamFile); //loop_end_offset = read_32bitBE(loops_offset+0x14,streamFile); } /* AINF header info (may be inserted by CRI's tools but is rarely used) * Can also start right after the loop points (base_size + hist_size + loops_size) * 0x00 (4): "AINF"; 0x04 (4): size; 0x08 (10): str_id * 0x18 (2): volume (0=base/max?, negative=reduce) * 0x1c (2): pan l; 0x1e (2): pan r (0=base, max +-128) */ /* CINF header info (very rare, found after loops) [Sakura Taisen 3 (PS2)] * 0x00 (4): "CINF" * 0x04 (4): size * 0x08 (4): "ASO ", unknown * 0x28 (4): "SND ", unknown * 0x48 (-): file name, null terminated */ } else if (version_signature == 0x0500) { /* found in some SFD: Buggy Heat, appears to have no loop */ header_type = meta_ADX_05; } else { /* not a known/supported version signature */ goto fail; } /* build the VGMSTREAM */ vgmstream = allocate_vgmstream(channel_count,loop_flag); if (!vgmstream) goto fail; vgmstream->num_samples = read_32bitBE(0xc,streamFile); vgmstream->sample_rate = read_32bitBE(0x8,streamFile); vgmstream->loop_start_sample = loop_start_sample; vgmstream->loop_end_sample = loop_end_sample; vgmstream->coding_type = coding_type; vgmstream->layout_type = channel_count==1 ? layout_none : layout_interleave; vgmstream->interleave_block_size = frame_size; vgmstream->meta_type = header_type; /* calculate filter coefficients */ if (coding_type == coding_CRI_ADX_fixed) { int i; for (i = 0; i < channel_count; i++) { vgmstream->ch[i].adpcm_coef[0] = 0x0000; vgmstream->ch[i].adpcm_coef[1] = 0x0000; vgmstream->ch[i].adpcm_coef[2] = 0x0F00; vgmstream->ch[i].adpcm_coef[3] = 0x0000; vgmstream->ch[i].adpcm_coef[4] = 0x1CC0; vgmstream->ch[i].adpcm_coef[5] = 0xF300; vgmstream->ch[i].adpcm_coef[6] = 0x1880; vgmstream->ch[i].adpcm_coef[7] = 0xF240; } } else { double x,y,z,a,b,c; int i; /* high-pass cutoff frequency, always 500 that I've seen */ uint16_t cutoff = (uint16_t)read_16bitBE(0x10,streamFile); x = cutoff; y = vgmstream->sample_rate; z = cos(2.0*M_PI*x/y); a = M_SQRT2-z; b = M_SQRT2-1.0; c = (a-sqrt((a+b)*(a-b)))/b; coef1 = (short)(c*8192); coef2 = (short)(c*c*-4096); for (i = 0; i < channel_count; i++) { vgmstream->ch[i].adpcm_coef[0] = coef1; vgmstream->ch[i].adpcm_coef[1] = coef2; } } /* init decoder */ { int i; for (i=0;ich[i].adpcm_history1_32 = read_16bitBE(hist_offset + i*4 + 0x00,streamFile); vgmstream->ch[i].adpcm_history2_32 = read_16bitBE(hist_offset + i*4 + 0x02,streamFile); } if (coding_type == coding_CRI_ADX_enc_8 || coding_type == coding_CRI_ADX_enc_9) { int j; vgmstream->ch[i].adx_channels = channel_count; vgmstream->ch[i].adx_xor = xor_start; vgmstream->ch[i].adx_mult = xor_mult; vgmstream->ch[i].adx_add = xor_add; for (j=0;jch[i]); } } } if ( !vgmstream_open_stream(vgmstream,streamFile,start_offset) ) goto fail; return vgmstream; fail: close_vgmstream(vgmstream); return NULL; } /* return 0 if not found, 1 if found and set parameters */ static int find_adx_key(STREAMFILE *streamFile, uint8_t type, uint16_t *xor_start, uint16_t *xor_mult, uint16_t *xor_add) { uint16_t * scales = NULL; uint16_t * prescales = NULL; int bruteframe = 0, bruteframe_count = -1; int startoff, endoff; int i, rc = 0; /* try to find key in external file first */ { uint8_t keybuf[6]; if (read_key_file(keybuf, 6, streamFile) == 6) { *xor_start = get_16bitBE(keybuf+0); *xor_mult = get_16bitBE(keybuf+2); *xor_add = get_16bitBE(keybuf+4); return 1; } } /* setup totals */ { int frame_count; startoff = read_16bitBE(2, streamFile) + 4; endoff = (read_32bitBE(12, streamFile) + 31) / 32 * 18 * read_8bit(7, streamFile) + startoff; frame_count = (endoff - startoff) / 18; if (frame_count < bruteframe_count || bruteframe_count < 0) bruteframe_count = frame_count; } /* find longest run of nonzero frames */ { int longest = -1, longest_length = -1; int length = 0; for (i = 0; i < bruteframe_count; i++) { static const unsigned char zeroes[18] = {0}; unsigned char buf[18]; read_streamfile(buf, startoff + i * 18, 18, streamFile); if (memcmp(zeroes, buf, 18)) length++; else length = 0; if (length > longest_length) { longest_length = length; longest = i - length + 1; if (longest_length >= 0x8000) break; } } if (longest == -1) { goto find_key_cleanup; } bruteframe_count = longest_length; bruteframe = longest; } /* try to guess key */ { const adxkey_info * keys = NULL; int keycount = 0, keymask = 0; int scales_to_do; int key_id; /* allocate storage for scales */ scales_to_do = (bruteframe_count > MAX_TEST_FRAMES ? MAX_TEST_FRAMES : bruteframe_count); scales = malloc(scales_to_do*sizeof(uint16_t)); if (!scales) goto find_key_cleanup; /* prescales are those scales before the first frame we test * against, we use these to compute the actual start */ if (bruteframe > 0) { /* allocate memory for the prescales */ prescales = malloc(bruteframe*sizeof(uint16_t)); if (!prescales) goto find_key_cleanup; /* read the prescales */ for (i=0; i