/************************************************* * MP Misc Functions Source File * * (C) 1999-2008 Jack Lloyd * *************************************************/ #include #include namespace Botan { extern "C" { /************************************************* * Core Division Operation * *************************************************/ u32bit bigint_divcore(word q, word y1, word y2, word x1, word x2, word x3) { word y0 = 0; y2 = word_madd2(q, y2, &y0); y1 = word_madd2(q, y1, &y0); if(y0 > x1) return 1; if(y0 < x1) return 0; if(y1 > x2) return 1; if(y1 < x2) return 0; if(y2 > x3) return 1; if(y2 < x3) return 0; return 0; } /************************************************* * Compare two MP integers * *************************************************/ s32bit bigint_cmp(const word x[], u32bit x_size, const word y[], u32bit y_size) { if(x_size < y_size) { return (-bigint_cmp(y, y_size, x, x_size)); } while(x_size > y_size) { if(x[x_size-1]) return 1; x_size--; } for(u32bit j = x_size; j > 0; --j) { if(x[j-1] > y[j-1]) return 1; if(x[j-1] < y[j-1]) return -1; } return 0; } /************************************************* * Do a 2-word/1-word Division * *************************************************/ word bigint_divop(word n1, word n0, word d) { word high = n1 % d, quotient = 0; for(u32bit j = 0; j != MP_WORD_BITS; ++j) { word high_top_bit = (high & MP_WORD_TOP_BIT); high <<= 1; high |= (n0 >> (MP_WORD_BITS-1-j)) & 1; quotient <<= 1; if(high_top_bit || high >= d) { high -= d; quotient |= 1; } } return quotient; } /************************************************* * Do a 2-word/1-word Modulo * *************************************************/ word bigint_modop(word n1, word n0, word d) { word z = bigint_divop(n1, n0, d); word dummy = 0; z = word_madd2(z, d, &dummy); return (n0-z); } } }