/* Copyright (C) 2015 Damien Zammit Copyright (C) 2015 Robin Gareus 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 3 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. */ #include #include #include #include #include #include #include "ptfformat.h" using namespace std; static const uint32_t baselut[16] = { 0xaaaaaaaa, 0xaa955555, 0xa9554aaa, 0xa552a955, 0xb56ad5aa, 0x95a95a95, 0x94a5294a, 0x9696b4b5, 0xd2d25a5a, 0xd24b6d25, 0xdb6db6da, 0xd9249b6d, 0xc9b64d92, 0xcd93264d, 0xccd99b32, 0xcccccccd }; static const uint32_t xorlut[16] = { 0x00000000, 0x00000b00, 0x000100b0, 0x00b0b010, 0x010b0b01, 0x0b10b10b, 0x01bb101b, 0x0111bbbb, 0x1111bbbb, 0x1bbb10bb, 0x1bb0bb0b, 0xbb0b0bab, 0xbab0b0ba, 0xb0abaaba, 0xba0aabaa, 0xbaaaaaaa }; static uint32_t swapbytes32 (const uint32_t v) { uint32_t rv = 0; rv |= ((v >> 0) & 0xf) << 28; rv |= ((v >> 4) & 0xf) << 24; rv |= ((v >> 8) & 0xf) << 20; rv |= ((v >> 12) & 0xf) << 16; rv |= ((v >> 16) & 0xf) << 12; rv |= ((v >> 20) & 0xf) << 8; rv |= ((v >> 24) & 0xf) << 4; rv |= ((v >> 28) & 0xf) << 0; return rv; } static uint64_t gen_secret (int i) { assert (i > 0 && i < 256); int iwrap = i & 0x7f; // wrap at 0x80; uint32_t xor_lo = 0; // 0x40 flag int idx; // mirror at 0x40; if (iwrap & 0x40) { xor_lo = 0x1; idx = 0x80 - iwrap; } else { idx = iwrap; } int i16 = (idx >> 1) & 0xf; if (idx & 0x20) { i16 = 15 - i16; } uint32_t lo = baselut [i16]; uint32_t xk = xorlut [i16]; if (idx & 0x20) { lo ^= 0xaaaaaaab; xk ^= 0x10000000; } uint32_t hi = swapbytes32 (lo) ^ xk; return ((uint64_t)hi << 32) | (lo ^ xor_lo); } PTFFormat::PTFFormat() { } PTFFormat::~PTFFormat() { if (ptfunxored) { free(ptfunxored); } } bool PTFFormat::foundin(std::string haystack, std::string needle) { size_t found = haystack.find(needle); if (found != std::string::npos) { return true; } else { return false; } } /* Return values: 0 success 0x01 to 0xff value of missing lut -1 could not open file as ptf */ int PTFFormat::load(std::string path, int64_t targetsr) { FILE *fp; unsigned char xxor[256]; unsigned char ct; unsigned char v; unsigned char voff; uint64_t key; uint64_t i; uint64_t j; int inv; int err; if (! (fp = g_fopen(path.c_str(), "rb"))) { return -1; } fseek(fp, 0, SEEK_END); len = ftell(fp); if (len < 0x40) { fclose(fp); return -1; } fseek(fp, 0x40, SEEK_SET); fread(&c0, 1, 1, fp); fread(&c1, 1, 1, fp); // For version <= 7 support: version = c0 & 0x0f; c0 = c0 & 0xc0; if (! (ptfunxored = (unsigned char*) malloc(len * sizeof(unsigned char)))) { /* Silently fail -- out of memory*/ fclose(fp); ptfunxored = 0; return -1; } switch (c0) { case 0x00: // Success! easy one xxor[0] = c0; xxor[1] = c1; //fprintf(stderr, "0 %02x\n1 %02x\n", c0, c1); for (i = 2; i < 256; i++) { if (i%64 == 0) { xxor[i] = c0; } else { xxor[i] = (xxor[i-1] + c1 - c0) & 0xff; //fprintf(stderr, "%x %02x\n", i, xxor[i]); } } break; case 0x80: //Success! easy two xxor[0] = c0; xxor[1] = c1; for (i = 2; i < 256; i++) { if (i%64 == 0) { xxor[i] = c0; } else { xxor[i] = ((xxor[i-1] + c1 - c0) & 0xff); } } for (i = 0; i < 64; i++) { xxor[i] ^= 0x80; } for (i = 128; i < 192; i++) { xxor[i] ^= 0x80; } break; case 0x40: case 0xc0: xxor[0] = c0; xxor[1] = c1; for (i = 2; i < 256; i++) { if (i%64 == 0) { xxor[i] = c0; } else { xxor[i] = ((xxor[i-1] + c1 - c0) & 0xff); } } key = gen_secret(c1); for (i = 0; i < 64; i++) { xxor[i] ^= (((key >> i) & 1) * 2 * 0x40) + 0x40; } for (i = 128; i < 192; i++) { inv = (((key >> (i-128)) & 1) == 1) ? 1 : 3; xxor[i] ^= (inv * 0x40); } for (i = 192; i < 256; i++) { xxor[i] ^= 0x80; } break; break; default: //Should not happen, failed c[0] c[1] return -1; break; } /* Read file */ i = 0; fseek(fp, 0, SEEK_SET); while (fread(&ct, 1, 1, fp) != 0) { ptfunxored[i++] = ct; } fclose(fp); /* version detection */ voff = 0x36; v = ptfunxored[voff]; if (v == 0x20) { voff += 7; } else if (v == 0x03) { voff += 4; } else { voff = 0; } v = ptfunxored[voff]; if (v == 10 || v == 11 || v == 12) { version = v; unxor10(); } // Special case when ptx is exported to ptf in PT if (v == 3) { version = 11; unxor_ptx_to_ptf(); } if (version == 0 || version == 5 || version == 7) { /* Haven't detected version yet so decipher */ j = 0; for (i = 0; i < len; i++) { if (j%256 == 0) { j = 0; } ptfunxored[i] ^= xxor[j]; j++; } /* version detection */ voff = 0x36; v = ptfunxored[voff]; if (v == 0x20) { voff += 7; } else if (v == 0x03) { voff += 4; } else { voff = 0; } v = ptfunxored[voff]; if (v == 5 || v == 7 || v == 8 || v == 9) { version = v; } } if (version < 5 || version > 12) return -1; targetrate = targetsr; err = parse(); if (err) return -1; return 0; } uint8_t PTFFormat::mostfrequent(uint32_t start, uint32_t stop) { uint32_t counts[256] = {0}; uint64_t i; uint32_t max = 0; uint8_t maxi = 0; for (i = start; i < stop; i++) { counts[ptfunxored[i]]++; } for (i = 0; i < 256; i++) { if (counts[i] > max) { maxi = i; max = counts[i]; } } return maxi; } void PTFFormat::unxor10(void) { uint64_t j; uint8_t x = mostfrequent(0x1000, 0x2000); uint8_t dx = 0x100-x; for (j = 0x1000; j < len; j++) { if(j % 0x1000 == 0xfff) { x = (x - dx) & 0xff; } ptfunxored[j] ^= x; } } void PTFFormat::unxor_ptx_to_ptf(void) { unsigned char keyy[16] = { 0x00,0x10,0x20,0x30,0x40,0x50,0x60,0x70, 0x80,0x90,0xa0,0xb0,0xc0,0xd0,0xe0,0xf0 }; uint64_t j; uint8_t i; for (i = 0, j = 0x10; j < len; j++,i++) { ptfunxored[j] ^= keyy[i]; if ((j % 16) == 0) { i = 0; if (ptfunxored[j] % 2 == 0) { ptfunxored[j]++; } else { ptfunxored[j]--; } } } } int PTFFormat::parse(void) { if (version == 5) { parse5header(); setrates(); if (sessionrate < 44100 || sessionrate > 192000) return -1; parseaudio5(); parserest5(); } else if (version == 7) { parse7header(); setrates(); if (sessionrate < 44100 || sessionrate > 192000) return -1; parseaudio(); parserest89(); } else if (version == 8) { parse8header(); setrates(); if (sessionrate < 44100 || sessionrate > 192000) return -1; parseaudio(); parserest89(); } else if (version == 9) { parse9header(); setrates(); if (sessionrate < 44100 || sessionrate > 192000) return -1; parseaudio(); parserest89(); } else if (version == 10 || version == 11 || version == 12) { parse10header(); setrates(); if (sessionrate < 44100 || sessionrate > 192000) return -1; parseaudio(); parserest10(); } else { // Should not occur return -1; } return 0; } void PTFFormat::setrates(void) { ratefactor = 1.f; if (sessionrate != 0) { ratefactor = (float)targetrate / sessionrate; } } void PTFFormat::parse5header(void) { uint32_t k; // Find session sample rate k = 0x100; while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x00) && (ptfunxored[k+2] == 0x02)) { break; } k++; } sessionrate = 0; sessionrate |= ptfunxored[k+12] << 16; sessionrate |= ptfunxored[k+13] << 8; sessionrate |= ptfunxored[k+14]; } void PTFFormat::parse7header(void) { uint64_t k; // Find session sample rate k = 0x100; while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x00) && (ptfunxored[k+2] == 0x05)) { break; } k++; } sessionrate = 0; sessionrate |= ptfunxored[k+12] << 16; sessionrate |= ptfunxored[k+13] << 8; sessionrate |= ptfunxored[k+14]; } void PTFFormat::parse8header(void) { uint64_t k; // Find session sample rate k = 0; while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x05)) { break; } k++; } sessionrate = 0; sessionrate |= ptfunxored[k+11]; sessionrate |= ptfunxored[k+12] << 8; sessionrate |= ptfunxored[k+13] << 16; } void PTFFormat::parse9header(void) { uint64_t k; // Find session sample rate k = 0x100; while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x06)) { break; } k++; } sessionrate = 0; sessionrate |= ptfunxored[k+11]; sessionrate |= ptfunxored[k+12] << 8; sessionrate |= ptfunxored[k+13] << 16; } void PTFFormat::parse10header(void) { uint64_t k; // Find session sample rate k = 0x100; while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x09)) { break; } k++; } sessionrate = 0; sessionrate |= ptfunxored[k+11]; sessionrate |= ptfunxored[k+12] << 8; sessionrate |= ptfunxored[k+13] << 16; } void PTFFormat::parserest5(void) { uint64_t i, j, k; uint64_t regionspertrack, lengthofname; uint64_t startbytes, lengthbytes, offsetbytes; uint16_t tracknumber = 0; uint16_t findex; uint16_t rindex; k = 0; for (i = 0; i < 5; i++) { while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x00) && (ptfunxored[k+2] == 0x03)) { break; } k++; } k++; } k--; for (i = 0; i < 2; i++) { while (k) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x00) && (ptfunxored[k+2] == 0x01)) { break; } k--; } if (k) k--; } k++; rindex = 0; while (k < len) { if ( (ptfunxored[k ] == 0xff) && (ptfunxored[k+1] == 0xff)) { break; } while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x00) && (ptfunxored[k+2] == 0x01)) { break; } k++; } lengthofname = ptfunxored[k+12]; if (ptfunxored[k+13] == 0x5a) { k++; break; } char name[256] = {0}; for (j = 0; j < lengthofname; j++) { name[j] = ptfunxored[k+13+j]; } name[j] = '\0'; regionspertrack = ptfunxored[k+13+j+3]; for (i = 0; i < regionspertrack; i++) { while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x00) && (ptfunxored[k+2] == 0x03)) { break; } k++; } j = k+16; startbytes = (ptfunxored[j+3] & 0xf0) >> 4; lengthbytes = (ptfunxored[j+2] & 0xf0) >> 4; offsetbytes = (ptfunxored[j+1] & 0xf0) >> 4; //somethingbytes = (ptfunxored[j+1] & 0xf); findex = ptfunxored[k+14]; j--; uint32_t start = 0; switch (startbytes) { case 4: start |= (uint32_t)(ptfunxored[j+8] << 24); case 3: start |= (uint32_t)(ptfunxored[j+7] << 16); case 2: start |= (uint32_t)(ptfunxored[j+6] << 8); case 1: start |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=startbytes; uint32_t length = 0; switch (lengthbytes) { case 4: length |= (uint32_t)(ptfunxored[j+8] << 24); case 3: length |= (uint32_t)(ptfunxored[j+7] << 16); case 2: length |= (uint32_t)(ptfunxored[j+6] << 8); case 1: length |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=lengthbytes; uint32_t sampleoffset = 0; switch (offsetbytes) { case 4: sampleoffset |= (uint32_t)(ptfunxored[j+8] << 24); case 3: sampleoffset |= (uint32_t)(ptfunxored[j+7] << 16); case 2: sampleoffset |= (uint32_t)(ptfunxored[j+6] << 8); case 1: sampleoffset |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=offsetbytes; //printf("name=`%s` start=%04x length=%04x offset=%04x findex=%d\n", name,start,length,sampleoffset,findex); std::string filename = string(name) + extension; wav_t f = { filename, findex, (int64_t)(start*ratefactor), (int64_t)(length*ratefactor), }; vector::iterator begin = audiofiles.begin(); vector::iterator finish = audiofiles.end(); vector::iterator found; // Add file to lists if ((found = std::find(begin, finish, f)) != finish) { region_t r = { name, rindex, (int64_t)(start*ratefactor), (int64_t)(sampleoffset*ratefactor), (int64_t)(length*ratefactor), *found, }; regions.push_back(r); vector::iterator ti; vector::iterator bt = tracks.begin(); vector::iterator et = tracks.end(); track_t tr = { name, 0, 0, r }; if ((ti = std::find(bt, et, tr)) != et) { tracknumber = (*ti).index; } else { tracknumber = tracks.size() + 1; } track_t t = { name, (uint16_t)tracknumber, uint8_t(0), r }; tracks.push_back(t); } else { region_t r = { name, rindex, (int64_t)(start*ratefactor), (int64_t)(sampleoffset*ratefactor), (int64_t)(length*ratefactor), f, }; regions.push_back(r); vector::iterator ti; vector::iterator bt = tracks.begin(); vector::iterator et = tracks.end(); track_t tr = { name, 0, 0, r }; if ((ti = std::find(bt, et, tr)) != et) { tracknumber = (*ti).index; } else { tracknumber = tracks.size() + 1; } track_t t = { name, (uint16_t)tracknumber, uint8_t(0), r }; tracks.push_back(t); } rindex++; k++; } k++; } } void PTFFormat::resort(std::vector& ws) { int j = 0; std::sort(ws.begin(), ws.end()); for (std::vector::iterator i = ws.begin(); i != ws.end(); ++i) { (*i).index = j; j++; } } void PTFFormat::parseaudio5(void) { uint64_t i,k,l; uint64_t lengthofname, wavnumber; // Find end of wav file list k = 0; while (k < len) { if ( (ptfunxored[k ] == 0x5f) && (ptfunxored[k+1] == 0x50) && (ptfunxored[k+2] == 0x35)) { break; } k++; } k++; while (k < len) { if ( (ptfunxored[k ] == 0x5f) && (ptfunxored[k+1] == 0x50) && (ptfunxored[k+2] == 0x35)) { break; } k++; } // Find actual wav names uint16_t numberofwavs = ptfunxored[k-23]; char wavname[256]; for (i = k; i < len; i++) { if ( (ptfunxored[i ] == 'F') && (ptfunxored[i+1] == 'i') && (ptfunxored[i+2] == 'l') && (ptfunxored[i+3] == 'e') && (ptfunxored[i+4] == 's')) { break; } } wavnumber = 0; i+=16; char ext[5]; while (i < len && numberofwavs > 0) { i++; if ( (ptfunxored[i ] == 0x5a) && (ptfunxored[i+1] == 0x00) && (ptfunxored[i+2] == 0x05)) { break; } lengthofname = ptfunxored[i]; i++; l = 0; while (l < lengthofname) { wavname[l] = ptfunxored[i+l]; l++; } i+=lengthofname; ext[0] = ptfunxored[i++]; ext[1] = ptfunxored[i++]; ext[2] = ptfunxored[i++]; ext[3] = ptfunxored[i++]; ext[4] = '\0'; wavname[l] = 0; if (foundin(wavname, ".L") || foundin(wavname, ".R")) { extension = string(""); } else if (foundin(wavname, ".wav") || foundin(ext, "WAVE")) { extension = string(".wav"); } else if (foundin(wavname, ".aif") || foundin(ext, "AIFF")) { extension = string(".aif"); } else { extension = string(""); } std::string wave = string(wavname); wav_t f = { wave, (uint16_t)(wavnumber++), 0, 0 }; if (foundin(wave, string(".grp"))) { continue; } actualwavs.push_back(f); audiofiles.push_back(f); //printf("done\n"); numberofwavs--; i += 7; } resort(actualwavs); resort(audiofiles); } void PTFFormat::parseaudio(void) { uint64_t i,j,k,l; // Find end of wav file list k = 0; while (k < len) { if ( (ptfunxored[k ] == 0xff) && (ptfunxored[k+1] == 0xff) && (ptfunxored[k+2] == 0xff) && (ptfunxored[k+3] == 0xff)) { break; } k++; } // Find actual wav names bool first = true; uint16_t numberofwavs; char wavname[256]; for (i = k; i > 4; i--) { if ( ((ptfunxored[i ] == 'W') || (ptfunxored[i ] == 'A')) && ((ptfunxored[i-1] == 'A') || (ptfunxored[i-1] == 'I')) && ((ptfunxored[i-2] == 'V') || (ptfunxored[i-2] == 'F')) && ((ptfunxored[i-3] == 'E') || (ptfunxored[i-3] == 'F'))) { j = i-4; l = 0; while (ptfunxored[j] != '\0') { wavname[l] = ptfunxored[j]; l++; j--; } wavname[l] = 0; if (ptfunxored[i] == 'W') { extension = string(".wav"); } else { extension = string(".aif"); } //uint8_t playlist = ptfunxored[j-8]; if (first) { first = false; for (j = k; j > 4; j--) { if ( (ptfunxored[j ] == 0x01) && (ptfunxored[j-1] == 0x5a)) { numberofwavs = 0; numberofwavs |= (uint32_t)(ptfunxored[j-2] << 24); numberofwavs |= (uint32_t)(ptfunxored[j-3] << 16); numberofwavs |= (uint32_t)(ptfunxored[j-4] << 8); numberofwavs |= (uint32_t)(ptfunxored[j-5]); //printf("%d wavs\n", numberofwavs); break; } k--; } } std::string wave = string(wavname); std::reverse(wave.begin(), wave.end()); wav_t f = { wave, (uint16_t)(numberofwavs - 1), 0, 0 }; if (foundin(wave, string(".grp"))) { continue; } actualwavs.push_back(f); numberofwavs--; if (numberofwavs <= 0) break; } } } void PTFFormat::parserest89(void) { uint64_t i,j,k,l; // Find Regions uint8_t startbytes = 0; uint8_t lengthbytes = 0; uint8_t offsetbytes = 0; uint8_t somethingbytes = 0; uint8_t skipbytes = 0; k = 0; while (k < len) { if ( (ptfunxored[k ] == 'S') && (ptfunxored[k+1] == 'n') && (ptfunxored[k+2] == 'a') && (ptfunxored[k+3] == 'p')) { break; } k++; } uint16_t rindex = 0; uint32_t findex = 0; for (i = k; i < len-70; i++) { if ( (ptfunxored[i ] == 0x5a) && (ptfunxored[i+1] == 0x0a)) { break; } if ( (ptfunxored[i ] == 0x5a) && (ptfunxored[i+1] == 0x0c)) { uint8_t lengthofname = ptfunxored[i+9]; char name[256] = {0}; for (j = 0; j < lengthofname; j++) { name[j] = ptfunxored[i+13+j]; } name[j] = '\0'; j += i+13; //uint8_t disabled = ptfunxored[j]; offsetbytes = (ptfunxored[j+1] & 0xf0) >> 4; lengthbytes = (ptfunxored[j+2] & 0xf0) >> 4; startbytes = (ptfunxored[j+3] & 0xf0) >> 4; somethingbytes = (ptfunxored[j+3] & 0xf); skipbytes = ptfunxored[j+4]; findex = ptfunxored[j+5 +startbytes +lengthbytes +offsetbytes +somethingbytes +skipbytes +40]; /*rindex = ptfunxored[j+5 +startbytes +lengthbytes +offsetbytes +somethingbytes +skipbytes +24]; */ uint32_t sampleoffset = 0; switch (offsetbytes) { case 4: sampleoffset |= (uint32_t)(ptfunxored[j+8] << 24); case 3: sampleoffset |= (uint32_t)(ptfunxored[j+7] << 16); case 2: sampleoffset |= (uint32_t)(ptfunxored[j+6] << 8); case 1: sampleoffset |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=offsetbytes; uint32_t length = 0; switch (lengthbytes) { case 4: length |= (uint32_t)(ptfunxored[j+8] << 24); case 3: length |= (uint32_t)(ptfunxored[j+7] << 16); case 2: length |= (uint32_t)(ptfunxored[j+6] << 8); case 1: length |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=lengthbytes; uint32_t start = 0; switch (startbytes) { case 4: start |= (uint32_t)(ptfunxored[j+8] << 24); case 3: start |= (uint32_t)(ptfunxored[j+7] << 16); case 2: start |= (uint32_t)(ptfunxored[j+6] << 8); case 1: start |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=startbytes; /* uint32_t something = 0; switch (somethingbytes) { case 4: something |= (uint32_t)(ptfunxored[j+8] << 24); case 3: something |= (uint32_t)(ptfunxored[j+7] << 16); case 2: something |= (uint32_t)(ptfunxored[j+6] << 8); case 1: something |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=somethingbytes; */ std::string filename = string(name) + extension; wav_t f = { filename, 0, (int64_t)(start*ratefactor), (int64_t)(length*ratefactor), }; f.index = findex; //printf("something=%d\n", something); vector::iterator begin = actualwavs.begin(); vector::iterator finish = actualwavs.end(); vector::iterator found; // Add file to list only if it is an actual wav if ((found = std::find(begin, finish, f)) != finish) { audiofiles.push_back(f); // Also add plain wav as region region_t r = { name, rindex, (int64_t)(start*ratefactor), (int64_t)(sampleoffset*ratefactor), (int64_t)(length*ratefactor), f }; regions.push_back(r); // Region only } else { if (foundin(filename, string(".grp"))) { continue; } region_t r = { name, rindex, (int64_t)(start*ratefactor), (int64_t)(sampleoffset*ratefactor), (int64_t)(length*ratefactor), f }; regions.push_back(r); } rindex++; } } while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x03)) { break; } k++; } while (k < len) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x02)) { break; } k++; } k++; // Tracks uint32_t offset; uint32_t tracknumber = 0; uint32_t regionspertrack = 0; for (;k < len; k++) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x04)) { break; } if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x02)) { uint8_t lengthofname = 0; lengthofname = ptfunxored[k+9]; if (lengthofname == 0x5a) { continue; } track_t tr; regionspertrack = (uint8_t)(ptfunxored[k+13+lengthofname]); //printf("regions/track=%d\n", regionspertrack); char name[256] = {0}; for (j = 0; j < lengthofname; j++) { name[j] = ptfunxored[j+k+13]; } name[j] = '\0'; tr.name = string(name); tr.index = tracknumber++; for (j = k; regionspertrack > 0 && j < len; j++) { for (l = j; l < len; l++) { if ( (ptfunxored[l ] == 0x5a) && (ptfunxored[l+1] == 0x07)) { j = l; break; } } if (regionspertrack == 0) { // tr.reg.index = (uint8_t)ptfunxored[j+13+lengthofname+5]; break; } else { tr.reg.index = (uint8_t)(ptfunxored[l+11]); vector::iterator begin = regions.begin(); vector::iterator finish = regions.end(); vector::iterator found; if ((found = std::find(begin, finish, tr.reg)) != finish) { tr.reg = (*found); } i = l+16; offset = 0; offset |= (uint32_t)(ptfunxored[i+3] << 24); offset |= (uint32_t)(ptfunxored[i+2] << 16); offset |= (uint32_t)(ptfunxored[i+1] << 8); offset |= (uint32_t)(ptfunxored[i]); tr.reg.startpos = (int64_t)(offset*ratefactor); if (tr.reg.length > 0) { tracks.push_back(tr); } regionspertrack--; } } } } } void PTFFormat::parserest10(void) { uint64_t i,j,k,l; // Find Regions uint8_t startbytes = 0; uint8_t lengthbytes = 0; uint8_t offsetbytes = 0; uint8_t somethingbytes = 0; uint8_t skipbytes = 0; k = 0; while (k < len) { if ( (ptfunxored[k ] == 'S') && (ptfunxored[k+1] == 'n') && (ptfunxored[k+2] == 'a') && (ptfunxored[k+3] == 'p')) { break; } k++; } for (i = k; i < len-70; i++) { if ( (ptfunxored[i ] == 0x5a) && (ptfunxored[i+1] == 0x02)) { k = i; break; } } k++; for (i = k; i < len-70; i++) { if ( (ptfunxored[i ] == 0x5a) && (ptfunxored[i+1] == 0x02)) { k = i; break; } } k++; uint16_t rindex = 0; uint32_t findex = 0; for (i = k; i < len-70; i++) { if ( (ptfunxored[i ] == 0x5a) && (ptfunxored[i+1] == 0x08)) { break; } if ( (ptfunxored[i ] == 0x5a) && (ptfunxored[i+1] == 0x01)) { uint8_t lengthofname = ptfunxored[i+9]; if (ptfunxored[i+13] == 0x5a) { continue; } char name[256] = {0}; for (j = 0; j < lengthofname; j++) { name[j] = ptfunxored[i+13+j]; } name[j] = '\0'; j += i+13; //uint8_t disabled = ptfunxored[j]; //printf("%s\n", name); offsetbytes = (ptfunxored[j+1] & 0xf0) >> 4; lengthbytes = (ptfunxored[j+2] & 0xf0) >> 4; startbytes = (ptfunxored[j+3] & 0xf0) >> 4; somethingbytes = (ptfunxored[j+3] & 0xf); skipbytes = ptfunxored[j+4]; findex = ptfunxored[j+5 +startbytes +lengthbytes +offsetbytes +somethingbytes +skipbytes +37]; /*rindex = ptfunxored[j+5 +startbytes +lengthbytes +offsetbytes +somethingbytes +skipbytes +24]; */ uint32_t sampleoffset = 0; switch (offsetbytes) { case 4: sampleoffset |= (uint32_t)(ptfunxored[j+8] << 24); case 3: sampleoffset |= (uint32_t)(ptfunxored[j+7] << 16); case 2: sampleoffset |= (uint32_t)(ptfunxored[j+6] << 8); case 1: sampleoffset |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=offsetbytes; uint32_t length = 0; switch (lengthbytes) { case 4: length |= (uint32_t)(ptfunxored[j+8] << 24); case 3: length |= (uint32_t)(ptfunxored[j+7] << 16); case 2: length |= (uint32_t)(ptfunxored[j+6] << 8); case 1: length |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=lengthbytes; uint32_t start = 0; switch (startbytes) { case 4: start |= (uint32_t)(ptfunxored[j+8] << 24); case 3: start |= (uint32_t)(ptfunxored[j+7] << 16); case 2: start |= (uint32_t)(ptfunxored[j+6] << 8); case 1: start |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=startbytes; /* uint32_t something = 0; switch (somethingbytes) { case 4: something |= (uint32_t)(ptfunxored[j+8] << 24); case 3: something |= (uint32_t)(ptfunxored[j+7] << 16); case 2: something |= (uint32_t)(ptfunxored[j+6] << 8); case 1: something |= (uint32_t)(ptfunxored[j+5]); default: break; } j+=somethingbytes; */ std::string filename = string(name) + extension; wav_t f = { filename, 0, (int64_t)(start*ratefactor), (int64_t)(length*ratefactor), }; if (strlen(name) == 0) { continue; } if (length == 0) { continue; } f.index = findex; //printf("something=%d\n", something); vector::iterator begin = actualwavs.begin(); vector::iterator finish = actualwavs.end(); vector::iterator found; // Add file to list only if it is an actual wav if ((found = std::find(begin, finish, f)) != finish) { audiofiles.push_back(f); // Also add plain wav as region region_t r = { name, rindex, (int64_t)(start*ratefactor), (int64_t)(sampleoffset*ratefactor), (int64_t)(length*ratefactor), f }; regions.push_back(r); // Region only } else { if (foundin(filename, string(".grp"))) { continue; } region_t r = { name, rindex, (int64_t)(start*ratefactor), (int64_t)(sampleoffset*ratefactor), (int64_t)(length*ratefactor), f }; regions.push_back(r); } rindex++; //printf("%s\n", name); } } // Tracks uint32_t offset; uint32_t tracknumber = 0; uint32_t regionspertrack = 0; for (;k < len; k++) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x08)) { break; } } k++; for (;k < len; k++) { if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x04)) { break; } if ( (ptfunxored[k ] == 0x5a) && (ptfunxored[k+1] == 0x02)) { uint8_t lengthofname = 0; lengthofname = ptfunxored[k+9]; if (lengthofname == 0x5a) { continue; } track_t tr; regionspertrack = (uint8_t)(ptfunxored[k+13+lengthofname]); //printf("regions/track=%d\n", regionspertrack); char name[256] = {0}; for (j = 0; j < lengthofname; j++) { name[j] = ptfunxored[j+k+13]; } name[j] = '\0'; tr.name = string(name); tr.index = tracknumber++; for (j = k; regionspertrack > 0 && j < len; j++) { for (l = j; l < len; l++) { if ( (ptfunxored[l ] == 0x5a) && (ptfunxored[l+1] == 0x08)) { j = l+1; break; } } if (regionspertrack == 0) { // tr.reg.index = (uint8_t)ptfunxored[j+13+lengthofname+5]; break; } else { tr.reg.index = (uint8_t)(ptfunxored[l+11]); vector::iterator begin = regions.begin(); vector::iterator finish = regions.end(); vector::iterator found; if ((found = std::find(begin, finish, tr.reg)) != finish) { tr.reg = (*found); } i = l+16; offset = 0; offset |= (uint32_t)(ptfunxored[i+3] << 24); offset |= (uint32_t)(ptfunxored[i+2] << 16); offset |= (uint32_t)(ptfunxored[i+1] << 8); offset |= (uint32_t)(ptfunxored[i]); tr.reg.startpos = (int64_t)(offset*ratefactor); if (tr.reg.length > 0) { tracks.push_back(tr); } regionspertrack--; } } } } }