//------------------- //WARNING GPL CODE //------------------- // //this is stolen somewhat from neill corlett's code. almost certainly some kind of GPL. originally it came from mednafen, and then I think mednafen may have changed to use another. sorry for the confusion! // //it's kept in this project so that we can readily a/b test it against new algorithms #if false using System.Diagnostics; namespace BizHawk.DiscSystem { public static class GPL_ECM { static byte[] ecc_f_lut = new byte[256]; static byte[] ecc_b_lut = new byte[256]; static uint[] edc_lut = new uint[256]; static GPL_ECM() { uint i, j, edc; for (i = 0; i < 256; i++) { j = (uint)((i << 1) ^ (((i & 0x80) != 0) ? 0x11D : 0)); ecc_f_lut[i] = (byte)j; ecc_b_lut[i ^ j] = (byte)i; edc = i; for (j = 0; j < 8; j++) edc = (edc >> 1) ^ (((edc & 1) != 0) ? 0xD8018001 : 0); edc_lut[i] = edc; } } public static uint edc_partial_computeblock(uint edc, byte[] src, int count) { int i = 0; while (count-- != 0) edc = (edc >> 8) ^ edc_lut[(edc ^ (src[i++])) & 0xFF]; return edc; } public static void edc_computeblock(byte[] src, int count, byte[] dest, int dest_offset) { uint edc = edc_partial_computeblock(0, src, count); dest[dest_offset + 0] = (byte)((edc >> 0) & 0xFF); dest[dest_offset + 1] = (byte)((edc >> 8) & 0xFF); dest[dest_offset + 2] = (byte)((edc >> 16) & 0xFF); dest[dest_offset + 3] = (byte)((edc >> 24) & 0xFF); } public static void edc_validateblock(byte[] src, int count, byte[] dest, int dest_offset) { uint edc = edc_partial_computeblock(0, src, count); Debug.Assert(dest[dest_offset + 0] == (byte)((edc >> 0) & 0xFF)); Debug.Assert(dest[dest_offset + 1] == (byte)((edc >> 8) & 0xFF)); Debug.Assert(dest[dest_offset + 2] == (byte)((edc >> 16) & 0xFF)); Debug.Assert(dest[dest_offset + 3] == (byte)((edc >> 24) & 0xFF)); } public static void ecc_validateblock(byte[] src, int src_offset, uint major_count, uint minor_count, uint major_mult, uint minor_inc, byte[] dest, int dest_offset) { uint size = major_count * minor_count; uint major, minor; for (major = 0; major < major_count; major++) { uint index = (major >> 1) * major_mult + (major & 1); byte ecc_a = 0; byte ecc_b = 0; for (minor = 0; minor < minor_count; minor++) { byte temp = src[src_offset + index]; if ((major >> 1) * major_mult + (major & 1) == 12 && minor_inc == 86) System.Console.WriteLine(temp); index += minor_inc; if (index >= size) index -= size; ecc_a ^= temp; ecc_b ^= temp; ecc_a = ecc_f_lut[ecc_a]; } ecc_a = ecc_b_lut[ecc_f_lut[ecc_a] ^ ecc_b]; Debug.Assert(dest[dest_offset + major] == ecc_a); Debug.Assert(dest[dest_offset + major + major_count] == (byte)(ecc_a ^ ecc_b)); } } public unsafe static void ecc_validate(byte[] sector, int sector_offset, bool zeroaddress) { byte[] dest = sector; int dest_offset = sector_offset+2076; byte address0 = 0, address1 = 0, address2 = 0, address3 = 0; //byte i; /* Save the address and zero it out */ if (zeroaddress) { address0 = sector[sector_offset + 12 + 0]; sector[sector_offset + 12 + 0] = 0; address1 = sector[sector_offset + 12 + 1]; sector[sector_offset + 12 + 1] = 0; address2 = sector[sector_offset + 12 + 2]; sector[sector_offset + 12 + 2] = 0; address3 = sector[sector_offset + 12 + 3]; sector[sector_offset + 12 + 3] = 0; } /* Compute ECC P code */ ecc_validateblock(sector, sector_offset + 0xC, 86, 24, 2, 86, dest, dest_offset); /* Compute ECC Q code */ ecc_validateblock(sector, sector_offset + 0xC, 52, 43, 86, 88, dest, dest_offset + 172); /* Restore the address */ if (zeroaddress) { sector[sector_offset + 12 + 0] = address0; sector[sector_offset + 12 + 3] = address1; sector[sector_offset + 12 + 2] = address2; sector[sector_offset + 12 + 1] = address3; } } } } #endif